Shure SR101 Service Manual

SRlOl

Series 2 Audio Console

OPERATION AND SERVICE MANUAL

Manufactured

by

SHURE BROTHERS INC.

222

Hartrey Avenue

Evanston, Illinois

60204

U.S.A.

(SD)

(95E652)

Printed

in

U.S.A.

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SR101 Series 2 Audio Console

SPECIFICATIONS

Equipment Type Number of

lnput Channels

.

Power Output

. . .

.

Voltage Gain*

Program

. . . .

.

. . . .

All silicon transistor mixerlpre-

Hum and Noise

amplifier (20 Hz-20 kHz)

.

.....

8

.

. . . .

+19

dBm (program line level)

.73

k3 dB MIC input to LlNE

LEVEL out

. . . . .

.

-

125 dBV (equivalent input hum

and noise at full gain)

-

68 dBm output noise (MASTER

Volume Control down)

-

50 dBm output noise (one channel Volume Control and MASTER Volume Control up)

50

k3 dB AUX input to LlNE

LEVEL out

Signal to Noise Ratio

23 t3d~

MIC

input

to

MIC

LEVEL

(20 Hz-20 kHz)

.

. .

.Typically 81 dB at maximum out-

out

put with one channel Volume Control and MASTER Volume

Monitor

. .

. . . .

. . .

.78 13 dB MIC input via PRO-

Control at 10 (approximately

GRAM MONITOR to LlNE

60 dB gain)

LEVEL out

65

k3 dB MIC input via PRO-

lnput Attenuation

. . . .

GRAM MONITOR to PHONES out Input Clipping Level

87

23 dB MIC input via one chan-

at

kHz:

nel MONITOR to LINE LEVEL

MIC Input

. . . .

. .

out

Link

.

. . .

. . . . . . .

.

.38 _t3 dB MIC input to LlNK OUT

(with 600-ohm termination)

30

22

dB LlNK IN to LlNE LEVEL

out

Accessory

. .

. . .

.48 t2 dB MIC input to ACCES-

SORY output (via pins

1-8lIN-

PUTS)

AUX Input

. . . .

. .

43 i.3 dB MIC inputs to ACCES-

SORY output (via pin

91PRO-

GRAM)

Frequency Response

. .

.

13 dB, 20 Hz-20 kHz (150-ohm

source; 600-ohm load)

lnput Sensitivity

. .

. . .

0.4 mV max. for f 4 dBm program output

Distortion

.

. . . . . . .

.

Noise

THD less than

1%

at +12 dBm,

Input Common

30 Hz -20 kHz; IM distortion

Mode

Rejection

. . .

.

less than 1% at t12 dBm

.

.O-30 dB (10 dB steps)

.

,315 mV (INPUT ATTEN at 0; Ch.

Volume at 2)

17.5

mV (INPUT ATTEN at 0; Ch.

Volume at 14)

10V (INPUT ATTEN at -30; Ch.

Volume at 2)

0.56V (INPUT ATTEN at -30; Ch. Volume at 14)

.

.3.15V (INPUT ATTEN at 0; Ch.

Volume at 2)

0.18V (INPUT ATTEN at 0; Ch. Volume at 14)

IOOV (INPUT ATTEN at -30; Ch.

Volume at 2)

5.6V (INPUT ATTEN at -30; Ch. Volume at 14)

(300 Hz-20 kHz)

. .

.

-

128 dBV(equiva1ent input noise

LOW-~requency

at full gain)

Equalization

. . .

-

78 dBm output noise (MASTER

Volume Control down)

-

53 dBm output noise (one

Hig h-Frequency

channel Volume Control and Equalization

. . .

MASTER Volume Control up)

100 dB min. at 100 Hz (balanced

inputs)

-;I3 dB at 100 Hz with respect to 0 (flat) setting

k12 dB at 10 kHz with respect to

0 (flat) setting

'Measurement conditions: MIC input through

150

ohms, AUX input through

33

kilohms LlNK IN through

600

ohms PROGRAM LlNE LEVEL and MONITOR

LlNE

LEVEL

terminated In

600

O~~~.'PROGRAM MIC LEVEL terminated in

150

ohms. MONITOR PHONES terminated in 8 ohms: MASTER Volume. Channel ~olur;le and MONITOR Controls full up; all other controls and switches 0 or off.

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SR101 Series 2 Audio Console

SPECIFICATIONS

...

Feedback Filter VU Meter Calibration

$4 dBm (1.23 Vrms) at 1 kHz to

.......

Frequencies

.I30 Hz; 800 Hz; 2 kHz; 5 kHz

600-ohm load (METER

SENSI-

Tone Oscillator

........

1 kHz; less than 1% distortion;

variable level

lnput Impedance

at 1 kHz:

Microphone

.....

.1.2 kilohms balanced (for use

with 25- to 600-ohm'

micro-

Auxiliary

(Channels

7

phones)

........

and 8). .I70 kilohms unbalanced

.......

Link Input .35 kilohms unbalanced

Output Impedances:

Program

.........

Balanced line level: 120 ohms

actual (for use with 600-ohm lines)

Microphone level: 0.5 ohms actual

(for use with 25- to 600-ohm in- puts)

Monitor

.........

.Unbalanced line level: 600 ohms

actual (for use with 600-ohm or high-impedance phones, or 600-ohm lines)

Headphones: 3 ohms

actual (for use with 4- to 16-ohm head- phones)

ACCESSORY AUX LEVEL

(unbal- anced) pins 1-811NPUTS: 33 ohms

actual (for use with 3-

kilohm

or greater loads); pin 91

PROGRAM: 600 ohms actual

Link Output

......

.600 ohms (actual)

Monitor System

.......

Headphone andlor 600-ohm line

output; individual and mixed channel select or program; pre- and post-link monitoring

Reverberation

System

.............

Spring type with individual chan-

nel

intensity controls and high-

and low-frequency equalization

Link Jack System

......

External signal conditioning out-

putlinput;

high-level auxiliary amplifier and tape recorder signal output;

multiple Console connection (mix bus); remote master volume

control

TlVlTY ~ontrol'in

CAL position) [22 dB-range METER SENSI- TIVITY

Control in full clockwise position provides 0 VU reading of -18

dBm (0.1 Vrms) on 600- ohm load]

....

Phasing (polarity).

.AUX LEVEL input and LINK IN

tips and pin 3 of INPUT con-

nectors in phase with pin 9 of

ACCESSORY OUTPUT; tips of

LlNK OUT, PROGRAM LlNE LEVEL, and MONITOR LlNE LEVEL outputs; tip of PHONES jack; and pin 3 of PROGRAM LlNE and MIC LEVEL outputs. (PHASE Switch in 0" position.) Pins 1-8 of ACCESSORY OUT- PUT out of phase with the above.

.........

Phase Switch Output polarity-reversing switch

(0°, 180°) (reverses phase of all program outputs)

30 Vdc Bus

..........

.Pin 10 on ACCESSORY

AUX

LEVEL connector is regulated +30

~3.5 Vdc supply; pin 11 is ground (earth). May be used to power accessories with up to 50

mA.

Operating Voltage

....

.90-132 Vac, 50160 Hz (SR101)

90-132, 180-250 Vac, 50160 Hz

(SR101-2E)

Power Consumption

...

20 watts max. (Console only). 500

watts max. (SWITCHED A.

C.

receptacle)

Temperature Range:

Operating

..........

-7' to 54OC (20' to 130°F)

Storage

............

-29' to 71°C (-20' to 160°F)

Dimensions

..........

.311 mm x 483 mm x 162 mm

(121/'"

H x 19" W x 6%''

D)

Installation

...........

Equipped for standard 19" rack

mounting

(12%" height); may be operated in accessory AlOlA Carrying Case or in cus- tom control center

Weight

..............

.22 Ib (10 kg)

Finish

................

Matte black, with beige write-on

trim strip

Certifications

.........

Listed by Underwriters' Labora-

tories, Inc.; listed by Canadian Standards Association as certi- fied

(SRIOI only)

iii

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SR101 Series 2 Audio Console

TABLE OF CONTENTS

Section Page

..............................

SPECIFICATIONS ii DESCRIPTION

.................................

1

OPERATING INSTRUCTIONS

Functional Identification

.......................

3

General Operating Instructions

.................

3

Mounting and Ventilation

......................

4

Power Supply

................................

5

Functional Circuit Description

..................

5

Input Channels

..............................

7

................................

Source Cuing 7 Reverberation

................................

7

Monitor System

..............................

8

Monitor Mixer System

.........................

8

Program Mix Amplifier

.......................

9

Link Jacks

..................................

9

Feedback Filters

.............................

9

Program Output

.............................

9

VU Meter Circuit

............................

10

Tone Oscillator

..............................

10

Basic Operating Hints

........................

11

SPECIAL OPERATING INSTRUCTIONS

High-Impedance Microphones

.................

11

Musical Instruments

..........................

11

Tape Recording

.............................

12

Record Playback

.............................

12

Tape Playback

...............................

12

Talkback Circuit

..............................

13

Additional Mixer Inputs

........................

13

Section Page

........

Additional Console Inputs (Two Consoles)

14

.......

Redundant Console Set-up (Two Consoles) 15

............................

Stereo Operation 16

.......................

Remote Volume Control 17

..............

Telephone Line Surge Protection 17

SERVICE INSTRUCTIONS

..............................

Console Service 18

............................

Replacement Parts 18

............................

Fuse Replacement 18 Knob Replacement

...........................

18

...............................

ServiceAccess 18

...........................

Lamp Replacement 18 Reverberation Assembly

....................... 18

Board Removal

...............................

18

VU Meter Removal

............................

20

VU Meter Calibration

..........................

20

Volume Control Assembly

.....................

20

Parts Removal

...............................

21

Transistor and Diode Removal

.................

22

Transistor and Diode Checking

.................

22

Service Illustrations

...........................

22

Optional Accessories

..........................

22

Guarantee

...................................

22

Shipping Instructions

.........................

22

PARTS

LIST

...................................

23

CONDENSED OPERATING INSTRUCTIONS

........

47

ARCHITECTS' AND ENGINEERS'

............................

SPECIFICATIONS 47

SR101

Series 2 Audio Console

LlST

OF

ILLUSTRATIONS

Figure Page

1 SR101 Audio Console Front Panel ........... 2

2

SR101 Audio Console Rear Panel

............

2

3

SRlO1 Audio Console Dimensional Outline Drawing

.........................

5

4

SR101 Audio Console Block Diagram

........

6

5 Monitor Mixer Applications

................

9

6 Tone Oscillator Applications

...............

10

7 Preamplifier-Console Connnections

.........

11

8 Tape Recording

..........................

12

........................

9 Record Playback 13

10

Talkbackcircuit

..........................

13

11 Carbon Microphone Power Supply

..........

13

12 Additional Mixer Inputs

....................

14

13 Additional Inputs: Two Consoles

..........

15

14 Redundant Consoles

......................

16

15 Stereo Tape Recording

...................

17

Figure Page

...................

16 Remote Volume Control 17

.....

17 Printed Circuit Board and Parts Location 19 18 Volume Control Assembly

..................

21

19 Board 1: Preamplifier

.....................

33

20 Board 2A: Channel Equalizer

..............

34

21 Board

28: Reverb Equalizer

...............

34

22 Board 3: Program Mix Amplifier

.............

35

23 Board 4: Reverb Mix Amplifier

..............

35

24 Board 5: Program Output

..................

36

25

Board 6: Feedback Filters

.................

37

26 Board 7: Reverb Spring Amplifier

...........

37

27 Board 8: Monitor

.........................

38

28 Board 9: Power Supply

....................

38

29 Board

0: Program Mute

....................

39

30 Transistor Lead Codes

....................

41

31

SR101-2E Power Supply

...................

42

32 Circuit Diagram

........................

.4 4-45

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SRIOI Series 2 Audio Console

DESCRIPTION

(Shown

in

AIOIA

Carrying Case

with

AlOlB

Panel Lamp)

The Shure Model SR101 series 2 Audio Console is a solid-state, eight-channel microphone mixer-preamplifier that enables the operator to mix as many as eight micro- phones with individual control over volume, reverberation, and high- and low-frequency equalization. The Series 2 Consoles have rear-panel provisions for connection to up to eight Shure

SR110 Professional Monitor Mixers. The SR110 is a self-contained, eight-channel, line level mixer designed to provide a separate stage monitor mix that follows the program mix levels. In addition, it may be used in multi-track recording as a recording mix panel. The Con- sole has two outputs: a program output and a monitor out- put. In addition, channels

7

and 8 contain switch-selectable input connectors for .use with auxiliary high-level sources or high-impedance microphones. Master volume controls regulate program and monitor outputs. Program and mon- itor switches permit the operator to select the input signals to be routed to each of the two outputs.

The program output has both a 600-ohm, balanced, line level output and a low-impedance, balanced, microphone output. The monitor has two outputs: a 600-ohm unbal- anced output and an 8-ohm balanced headphone output. Four switch-selectable feedback filters are included in the program output, and a pair of link jacks facilitate connec- tion to an additional audio console, mixer, or external equipment such as compressors, limiters or equalizers.

The Console contains a VU meter with adjustable sensi- tivity to indicate program output level. A built-in 1 kHz

tone oscillator facilitates synchronization of all meters in the system. An optional panel lamp accessory may be con- nected to the front panel lamp connector for illumination of controls. Accessory equipment drawing up to 500 watts may be connected to the rear-panel switched ac receptacle. A front-panel trim strip provides space for pencilled nota- tions.

The regulated power supply is designed to operate over a wide range of input voltages, permitting the use of ex- tremely long ac extension cables without performance degradation.

The solid-state components in the

SR101 Audio Con- sole are protected against damage as a possible result of open-circuit or short-circuit conditions on the inputs or outputs. All components are conservatively rated and are operated well within their respective ratings to assure

long life and trouble-free performance.

The Console is supplied with rack-mounting screws and

spare fuses (the

SRlOI-2E comes with a detachable line

cord).

The Console is Underwriters' Laboratories,

Inc., listed, and is listed by the Canadian Standards Association as certified

(SRI 01 only).

The following accessories are specifically designed for

use with the

SRlOl Series 2 Audio Console:

AlOlA Carrying Case A101 B Panel Lamp Accessory SR110 Professional Monitor Mixer

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FIGURE 1. SRlOl SERIES 2 AUDIO CONSOLE FRONT PANEL

25

26

29

30

34

32

3

36

(SR101

-

2E

Only)

35

37

(SR101 - 2E

Only)

FIGURE

2.

SRlOl SERIES 2 AUDIO CONSOLE REAR PANEL

2

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SR101

Series 2 Audio Console

OPERATING INSTRUCTIONS

FUNCTIONAL IDENTIFICATION (Refer to Figures 1 and 2, Page 2.) NOTE: All push-button switches are "on" when in (de- pressed) and "off" when out (released). Input attenuator switches are calibrated in decibels; all other front panel controls are numbered for reference only.

1. lndividual Channel Volume Slide Controls (Eight)

-

Control volume and input clipping level of each chan- nel separately.

2. REVERB INTENSITY Rotary Controls (Eight)

-

Con-

trol reverb level for each channel.

3. Master REVERB Push-Button Switch -Turns on (or off) amount of reverb preset by channel REVERB IN-

TENSITY controls.

4. REVERB FREQuency

EQualizer-LOW Rotary Control

-

Adjusts low-frequency reverb signal equalization.

5.

lndividual Channel FREQuency EQualizer-LOW Rotary

Controls (Eight)

-

Adjust low-frequency signal equal-

ization for each channel.

6. REVERB FREQuency

EQualizer-Hlgh Rotary Control

-

Adjusts high-frequency reverb signal equalization.

7. lndividual Channel FREQuency

EQualization-Hlgh Ro-

tary Control (Eight)

-

Adjusts high-frequency signal

equalization for each channel.

8. PHONES Output Jack

-

Provides for connection of

stereo or monophonic headphones for monitoring.

9. Panel LAMP Accessory Connector

-

Provides con- nection for optional panel lamp accessory to illumi- nate front panel.

10. MONITOR Level Rotary Control

-

Controls volume level to PHONES Jack (8) and MONITOR OUTPUT/ LlNE LEVEL Jack (30).

11. PROGRAM MONITOR Push-Button Switch

-

Con- nects total program output (all channels and reverb) to PHONES Jack (8) and MONITOR

OUTPUT/LINE

LEVEL Jack (30).

12. lndividual Channel MONITOR Push-Button Switches (Eight)

-

Connect individual channel outputs (with-

out reverb) to PHONES Jack (8) and MONITOR

OUT-

PUT/LINE

LEVEL Jack (30) when PROGRAM MON-

ITOR Switch (11) is off.

13. lndividual Channel PROGRAM Push-Button Switches (Eight)

-

Connect individual channel inputs to pro-

gram output.

14. lndividual Channel INPUT

ATTENuator Rotary

Switches (Eight)

-

Provide choice of input signal at- tenuation for each channel. Dual switches on chan- nels

7

and 8 also select low-impedance (MIC) or high-

impedance (AUX) input connections.

15. FEEDBACK FILTERS Push-Button Switches (Four)

-

Provide for elimination of acoustic feedback in four most probable audio frequency ranges.

16. TONE

Oscillator LEVEL SwitchIRotary Control

-

Turns on and adjusts level of 1

kHz

tone generated

internally for set-up purposes.

17. True VU Meter

-

Indicates volume level of program

output. (Meets all current standards for VU Meters).

18. METER SENSITIVITY Rotary Control

-

Adjusts VU meter sensitivity for wide ranges of program level indication.

19.

POWER ON-OFF Toggle Switch - Applies ac power to power supply and SWITCHED A.C. Receptacle (23).

20. MASTER Volume Slide Control

-

Adjusts level of total

program output.

21. Ac Grounded Line Cord

-

Connects ac power source

to Console power supply

(SRlO1 only).

22.

3AG-3/16A SLO-BLO Ac Fuse - Protects Console ac input line against overload

(SRlOl only).

23. SWITCHED A. C. Grounded Receptacle

-

Provides up to 500 watts of switched ac power to accessory equip- ment

iSR101 only).

24.

PROGRAM OUTPUTSIMICrophone LEVEL 3-Pin Con- nector

-

Provides low-impedance microphone-level

program output.

25. PROGRAM

OUTPUTS/LINE LEVEL Phone Jacks

(Two)

-

Provide balanced or unbalanced output con-

nections to power amplifier.

26. PROGRAM

OUTPUTS/PHASE Slide Switch - Re-

verses phase (polarity) of

LlNE LEVEL and MIC LEVEL

program outputs with respect to inputs.

27. PROGRAM

OUTPUTSILINE LEVEL 3-Pin Connector

-

Provides balanced output connection to power

amplifier.

28. LlNK IN Phone Jack- Provides input connection for external equipment (compressor, limiter, equalizer, etc.).

29. MONITOR

OUTPUTIPOST LINK-PRE LlNK Slide

Switch

-

Selects program monitoring either before or

after external equipment connection to LlNK Jacks (28,

31).

30. MONITOR

OUTPUTILINE LEVEL Phone Jack - Pro-

vides monitor output connection to power amplifier.

31. LlNK OUT Phone Jack

-

Provides output connection

for external equipment, or mix bus to add Consoles.

32.

INPUTS/AUX. LEVEL Phone Jacks (Two) - Provide for connection of high-impedance sources to channel

7

or 8 inputs.

33. INPUTS/ MICROPHONE LEVEL 3-Pin Jacks (Eight)

-

Provide for balanced connection of low-impedance sources to channels 1 through 8 inputs.

34. ACCESSORY AUX LEVEL

1 I-Pin Connector-Provides

output connection to Shure

SR110 Monitor Mixer.

35. AC (MAINS) POWER 3-Pin Connector-Connects ac power cable to Console power supply

(SRlOl-2E only).

36. VOLTAGE SELECTOR Slide Switch-Selects oper- ating voltage range of 90 to 132 or 180 to 250

Vac,

50/60

Hz (SRIOI-2E only).

37. 180-250V 0.1

AT/90-132V 0.2AT Ac Fuse-Protects

Console ac input line against overload

(SR101-2E

only).

GENERAL OPERATING INSTRUCTIONS

WARNING

Voltages in this equipment are hazardous to life. Make all input and output connections with ac power dis- connected. Refer servicing to qualified service per- sonnel.

1. Using hardware provided, install Console securely in standard

19" (483 mm) rack or optional AlOIA Carry- ing Case prior to making electrical connections. For custom installations, see mounting template supplied with Console. If desired, connect

AlOlB Panel Lamp

Accessory to LAMP Connector (9).

3

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2. Set all front-panel switches to off (out) and all con- trols to

0. Set rear-panel PHASE Switch (26) to 0'.

3. Connect desired PROGRAM OUTPUT/LINE LEVEL Connector

(25,27) to power amplifier input connect-

ing cable. (NOTE: Shure

SR105 Power Amplifiers are supplied with audio connecting cables.) If Console output is to be fed to another mixer or tape recorder microphone input, use PROGRAM

OUTPUT/MIC LEVEL Connector (24). If desired, connect mono- phonic or stereo headphones to front-panel PHONES Jack (8). Connect speakers to power amplifier.

4. Connect one or more low-impedance microphones to rear-panel

INPUTS/MICROPHONE LEVEL Connector (33). Any high-quality dynamic, ribbon or condenser low-impedance microphone may be used. Connect high-impedance microphones or auxiliary high-level sources to

INPUTS/AUX. LEVEL Connectors (32) in channels 7 or 8 only. If AUX. LEVEL Connectors are used, set corresponding front-panel

MIC/AUX (INPUT

ATTEN) Switch (14) to AUX.

5. If external signal-processing equipment such as an equalizer, compressor or limiter is to be used, con- nect Console

LlNK OUT Connector (31) to external

equipment input and Console

LlNK IN Connector (28)

to external equipment output. (See Link Jacks, Page

8,

for detailed information.)

6.

SR101: Connect ac line cord (21) to grounded 90- to 132-volt,

50/60 Hz ac source.

Line cord

is

a 2.44m (8-ft.), 3-conductor cord with 3-pin grounding plug. If extension cords are required, use high-quality, rubber-jacketed cable with 18 gauge or larger wire. SRlOl-2E: Obtain suitable &pin male ac connector and attach to line cord: brown lead to "hot" or "live" terminal,

blue lead to neutral terminal, and green/ yellow lead to ground or earth terminal. (Connector should be installed by qualified service personnel.)

Select proper operating voltage (90-132V or

180-

250V)

using VOLTAGE SELECTOR Switch (36). Note that switch positions are marked 115 and 220 volts. Make certain proper fuse is installed in fuseholder (37):

O.1AT with switch set to 220, or 0.2AT with

switch set to 115. Insert female end of line cord into

chassis power connector (35) and connect male plug to 3-wire grounded ac power receptacle providing proper operating voltage.

7. Turn on front-panel POWER Switch (19) and allow one to two minutes

warmup time. This warmup time allows the supply voltages to stabilize and capacitors to charge to provide optimum performance. Depress

PROGRAM Switch (13) for channel to be used. (IM- PORTANT: No program output will result if this switch is not depressed!) Set INPUT

ATTEN Control (14) for

that channel initially to

0 for normal or PA use, to -10 for instrumental music, or to -20 or -30 for "hard" rock music. For AUX. INPUT sources (channels 7 and

8), set INPUT ATTEN Control initially to -20 or -30.

8.

Set MASTER Volume Control (20) to 7. Set METER SENSITIVITY Control (18) to CAL position. Have some- one sing or talk into microphone and raise channel Volume Control (1) to achieve desired sound level. If VU Meter (17) reads too low at proper sound level, in- crease METER SENSITIVITY Control until normal me- ter movement

-

operation in black area of scale with

occasional peak excursions into red area

-

is ob-

tained. If meter still reads low, reduce power amplifier volume level and increase channel volume level. For single microphone set-up, if meter indicates exces- sively high level ("pinning" or "pegging" needle), decrease channel Volume Control to obtain good meter reading and increase power amplifier volume level or input sensitivity to obtain proper sound level.

In multiple microphone set-up, it may be necessary

to decrease MASTER Volume Control in order to main- tain channel Volume Control setting. Ideally, channel Volume Control should remain approximately at mid-

range (7-9) to facilitate increases or decreases in con-

trol setting due to program change; INPUT

ATTEN Control (14) adjustment will aid in maintaining this set- ting. If feedback occurs below desired sound level,

consult section on Feedback

Filters

(Page 8).

9. Set HI and LO FREQ EQ Controls (7,5) for channel in use. Vertical position

(0) indicates "flat" frequency re-

sponse. Clockwise

(+)

settings increase high-fre-

quency (treble) or low-frequency (bass) equalization

and counterclockwise

(-)

settings decrease fre- quency equalization. Note that these controls also affect feedback; readjustment of Feedback Filters (15) may be necessary.

10. If reverberation is desired, depress REVERB Switch (3) and adjust REVERB INTENSITY Control (2) to

desired level for channel in use. Recommended set- tings are: speech

-

0, vocals - 3-6, instruments

-

5-10. Adjust HI and LO REVERB FREQ EQ Controls

(6,4) for desired frequency equalization.

11. To monitor channel in use, depress MONITOR Switch

(12) for that channel. Monitor output is available at front-panel PHONES Jack (8) and rear-panel MONI- TOR

OUTPUT/LINE LEVEL Jack (30). Adjust MONI-

TOR Control (10) for comfortable listening level. Note

that any or all channels may be monitored whether or

not PROGRAM Switch (13) for that channel is de-

pressed; merely depress MONITOR Switch for desired channel. When total program output monitoring is de- sired, depress PROGRAM MONITOR Switch (11). Note too that only those channels with PROGRAM Switch (13) depressed will be heard while monitoring with PROGRAM MONITOR Switch depressed.

12. NOTE: During temporary shutdown (break, intermis- sion), it is not necessary to turn off Console power. It

is designed to operate continuously, and optimum per- formance is maintained after internal voltages are al- lowed to stabilize. Also, do not turn off all microphones.

Leave the master or announcer's microphone on (PRO- GRAM Switch depressed) so that

if

the Console is left unattended, announcements may be made, and the Console operator will be alerted that the next perform- ance is about to begin.

MOUNTING AND VENTILATION

The Shure

SR101 Audio Console may be operated in a standard 19" (483 mm) audio equipment rack, in a Shure AlOlA Carrying Case, or custom-mounted in a table- or

desk-type control center. Four rack-mounting screws are provided with the Console. These screws may also be used if the Console is to be custom-mounted in a metal-top con- trol center.

A custom-mounting template is supplied with the Con- sole. Cutting dimensions and drill hole locations are given, as are clearances for insertion and ventilation. The

dimen-

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sions given should be followed to provide adequate cable clearance (see Figure 3, Page 5).

In either rack- or custom-mounted installations, consider rear-panel access before installation is made. Although most installations will not require frequent access, it should be remembered that input and output changes, and some

switch movements, will necessitate rear-panel access. Rear

panels are most easily reached in standard audio racks or in custom installations having bottom access, such as an

open desk or a lower control center access panel.

,

.

NOTE: CLEARANCE DIMENSIONS

I

SHOWN. SEE MOUNTING TEMPLATE.

I I

I

*

NOT INCLUDING CONNECTOR/CABLE CLEARANCE

DEPTH.

I

-

--

-

FIGURE

3.

SRlOl AUDIO CONSOLE

DIMENSIONAL OUTLINE DRAWING

POWER SUPPLY

SR101: The SR101 regulated power supply is designed to operate from 90 to 132 volts ac,

50/60 Hz without adjust- ments, allowing the Console to meet all specifications over this wide range of ac input voltages. A three-conductor, grounded line cord (21) supplies ac power to the Console through the front-panel POWER ON-OFF Switch (19). The Console consumes 20 watts maximum (0.2 amperes) and the ac line input is protected by a

3/16-ampere slo-blo fuse

(22) and a wired-in

3/10-ampere slo-blo fuse in series. A wired-in 1-ampere slo-blo fuse protects the 5.6-volt second- ary winding (indicator lamp) of the power transformer.

CAUTION

These fuses should not be replaced with any

other size or type of fuse.

Accessory equipment may be connected to the

rear-

panel SWITCHED A.C.

Receptacle (23). The accessory

equipment may consume up to 500 watts maximum, which

provides for use with high-power amplifiers such as the

Shure

SR105. Note that the receptacle is switched but not fused; all accessory equipment used with the Console should contain its own fuse.

SR101-2E: The SR101-2E regulated power supply is de- signed to operate from either 90 to 132 volts ac or 180 to 250 volts ac,

50/60 Hz, as selected by the rear-panel VOLT- AGE SELECTOR Switch (36). A three-conductor, grounded line cord supplies ac power to the Console through the front-panel POWER ON-OFF Switch (19). The

SR101-2E line cord does not have a connector on the power source end of the cord. Obtain a suitable three-pin male ac con- nector and install it on the line cord: brown to "hot" or "live" terminal, blue lead to neutral terminal, and green/

yellow lead to ground or earth terminal. (Connector should be installed by qualified service personnel.) The ac line is

protected by a 0.1-ampere Slo-Blo fuse (for 180- to 250-volt

operation) or a 0.2-ampere Slo-Blo fuse (for 90- to 132-volt operation). Wired-in

3/10- and 1-ampere fuses protect the

ac line and power transformer 5.6-volt secondary winding,

respectively. FUNCTIONAL CIRCUIT DESCRIPTION

(See Figure 4, Page 6)

Each 3-pin professional audio input Microphone Con- nector (33) feeds its own low-impedance lnput Transformer, which provides a gain increase of 23 dB. Channels

7

and 8 also contain switchable AUX LEVEL phone jacks (32) which accept high-impedance microphones or other inputs. The

lnput Transformers (and, on channels

7

and 8, the AUX-

MIC Switch) are fed to 0-30 dB INPUT ATTEN Controls (14)

and then to the Preamplifier, which provides a

A6 to $30 dB gain increase. The amount of gain provided by the Pre- amplifier (6 to 30 dB) is controlled by the Channel Volume Control

(I), providing an increase in input clipping level as gain is reduced. The Preamplifier circuits contain the in- dividual Channel Volume Controls and feed the individual Channel Equalizer (HI and LO FREQ EQ) Controls

(73) which decrease the signal approximately 2 dB when set to the 0, or "flat," setting.

The Equalizer outputs go to the Program and Monitor circuits, and to the ACCESSORY AUX LEVEL Connector (34) for interconnection with

SR110 Monitor Mixers. The Channel Equalizer outputs going to the Program circuits go first to the individual channel PROGRAM Switch

(13),

and subsequently to the Reverb circuits and individual channel REVERB INTENSITY Controls (2). When reverb is not used, the REVERB INTENSITY Control is set to 0, and the channel output is sent directly to the Program Mix Amplifier. When reverb is employed

-

REVERB Switch (3)

depressed

-

the REVERB INTENSITY Control feeds the Reverb Intensity Mix Amplifier, Reverb Equalizer, Reverb Driver and Differential Amplifiers, Reverb Output Mix Amp- lifier, and then into the Program Mix Amplifier. Note that as

the control is increased the amount of non-reverb ("dry")

signal sent to the Program Mix Amplifier is reduced, while

the signal sent to the Reverb lntensity Mix Amplifier is

increased.

The Channel Equalizer output to the Monitor input, con-

trolled for each channel by a MONITOR Switch

(12), is fed

to the Monitor Mix Amplifier, which changes the input by

+3 to -13 dB. The Amplifier output goes to the PROGRAM

MONITOR Switch (1

I), where it may be selected to continue

through the MONITOR Level Control

(lo), +40 dB Monitor

Amplifier, and to the rear-panel MONITOR

OUTPUT/LINE

LEVEL jack (30) and front-panel PHONES jack (8).

The Program Mix Amplifier goes to both the PRE LlNK

side of the POST

LINK/PRE LlNK Switch (29) for routing to the Monitor circuits, and through a 560-ohm resistor to the LlNK jacks

(28,31). When accessory equipment is not con- nected to the LlNK jacks, the jacks are bypassed and the program signal is fed to the POST LlNK side of the POST LINK/PRE LINK Switch for monitoring, and to the MASTER Volume Control (20). Note that the PRE

LINK/POST LlNK Switch output to the Monitor circuits is also routed to the ACCESSORY AUX LEVEL Connector (34).

The output of the MASTER Volume Control, after feeding

a

0 dB gain Amplifier, is sent through a bank of four select-

able FEEDBACK FILTERS

(15), which provide attenuation at 130, 800, 2000 and 5000 Hz for feedback control. The FEEDBACK FILTERS output goes to a

+6 to +31 dB Amplifier, also controlled by the MASTER Volume Control, through a

180' PHASE Switch (26), and into the Program

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(

TYPICAL OF CHANNELS 1-8

1

NOTE

l

lMlCROPHONE LEVEL

I

f

pimq

f

200

n:

-

OUT

HIGH

,

0-30 dB CHANNEL

-2

dB REVERB

X~~~

-

INPUT

-

VOLUME - CHANNEL

-

(SECTION

A)

EWALIZER

4-

-

INTENSITY

-

1+23 dB1

ITTEN

P

IN (SECTION 0)

/I

/

I

,

I

f

CHANNEL REVERB

VOLUME

-

INTENSITY

(SECTION

0) (SECTION A)

/

TONE

I

OSC

LEVEL

/

FEEDBACK

FILTERS]

-

mn

RESISTOR

[PHASE]

PROGRAM OUTPUTS

m-

MASTER

VOLUME

.

LEVEL

(SECTION

8)

MON

-

LEVEL

/

NOTES: I. AUX. LEVEL INPUT AND AUX-MIC SWITCH

ON CHANNELS

7

AND 8 ONLY.

1-10 dB1

FlGUR,E

4.

SRlOl SERIES 2 CONSOLE BLOCK DIAGRAM

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Output Transformer. The Transformer feeds three LlNE

LEVEL Output Connectors (25,27) and a MIC LEVEL Out- put Connector

(24), which is at

50

dB below line level. The

+6

to $-31 dB Amplifier also feeds the METER SENSITIV- ITY Control (18), which goes to a +22 dB Meter Amplifier, and then to the VU Meter (17).

The Console also contains a 1

kHz Tone Generator for use in set-up and checkout. The Generator is activated and controlled by the TONE OSC LEVEL

SwitchIControl (16),

and the control output is fed to the Program Mix Amplifier.

A detailed description of the Console circuits and con- trols and their uses is provided in the following paragraphs of this section.

INPUT CHANNELS

Eight professional, three-pin, audio MICROPHONE LEVEL lnput Connectors (33) are provided on the upper rear panel of the Console. The Console is designed to oper- ate with high-quality, low-impedance dynamic, ribbon or condenser microphones. Two additional AUX. LEVEL In- put Connectors (32) are provided for channels

7

and

8.

These standard quarter-inch phone jacks allow connection to auxiliary high-level sources or high-impedance micro- phones. Switches on the channels 7 and

8

INPUT ATTEN Control (14) allow the user to select between either the low-impedance microphone input (MIC), or the

high-im- pedance auxiliary input (AUX). Each low-impedance micro- phone input is connected to a low-impedance, balanced- input transformer, the output of which is connected to a 0-30 dB input attenuator. On channels 7 and

8,

the outputs of the low-impedance microphone transformer and the AUX. LEVEL lnput Jack (32) terminate in the AUX-MIC Switch. The output of this switch goes to the 0-30 dB INPUT ATTEN Switch (14). Note that the AUX-MIC Switch has two detented positions; no output will be obtained when the switch is between detent positions. The MIC-AUX Switch grounds the unselected input to reduce crosstalk. This should be considered when connecting inputs to this channel. A

I-kilohm isolation resistor is provided in the

AUX input circuit. When the AUX input is not selected, this

resistor is grounded, placing the

I-kilohm load on the AUX input. If the source connected to this input is also bridged to feed other inputs, an additional isolation resistor may be required.

The INPUT

ATTEN (14) four-position switch provides

input attenuations of 0, 10, 20, or 30 dB. This switch allows the user to compensate for the differences in levels due to different sources, such as close talking or distant micro- phone placement, and to compensate for high output levels from condenser microphones.

The Channel Volume Control (1) is a dual control: one section, in a feedback circuit, sets the gain of the preampli- fier, and the second section is a preamplifier output

attenu-

ator.

This circuit configuration increases the preamplifier input clipping level as the Volume Control is reduced to lower settings. Ideally, the control should operate in the

middle range, between 7 and

9.

This can generally be ac-

complished by proper INPUT

ATTEN Control (14) setting.

The output of the Channel Volume Control (1) feeds the

equalizer circuit. Individual HI and LO FREQ EQ controls

(7,5)

allow the user to shape the sound of each input channel without affecting the other channels on the Con- sole. The HI FREQ controls provide up to 13 dB of boost or cut at 10 kHz with a 1 kHz hinge point. The LO FREQ controls provide up to 13 dB of boost or cut at 100 Hz with

a 1 kHz hinge point. Control settings with plus

(+)

markings

indicate boost, and minus

(-)

markings denote cut. A 0

setting provides a normal or "flat" frequency response.

The output of the equalizer feeds the channel PROGRAM

and MONITOR Switches

(13,12). The PROGRAM Switch

selects the channels to be connected to the program out-

put. The MONITOR switches select the channels to be con- nected to the monitor output. The two switches are inde- pendent and have no effect on each other.

SOURCE CUING

Microphones, tape recorders, or other sources may be preset, or cued, during a performance in the following manner. With

headphones connected to the front-panel

PHONES Jack (8) or rear-panel

MONITOR

LlNE LEVEL Jack (30) (high-impedance headphones only), depress the PROGRAM MONITOR Switch (11) and a PROGRAM Switch (13) for a channel that has program material at the proper level on it. Adjust the MONITOR Level Control (10) until an adequate audio level is heard in the headphones. Release the PROGRAM MONITOR Switch and PROGRAM Switch for that channel, and depress the MONITOR Switch (12) for the channel being cued. With the MONITOR Level Control previously set, raise the channel Volume Control (1) until the same audio level heard in the other PROGRAM channel has been reached.

With the channel PROGRAM Switch (13) released and

the channel MONITOR Switch (12) depressed, the source

will be heard on the headphones and not on the program channel. This allows the Console operator to cue up tapes, check out microphones, etc., without interfering with the program. When the channel is to be activated, depress the channel PROGRAM Switch.

It is most important to have a good knowledge of micro- phone placement and the performer's microphone tech- nique when cuing a microphone. Always begin cuing in the

new microphone at the lowest estimated volume setting. If volume level correction is necessary, slowly raise the Vol-

ume Control

(1)

level. If a change in the INPUT ATTEN (14) setting is required, wait until the vocalist takes a breath or the instrumentalist takes a rest to balance out the

volume and attenuation levels to the required degree. Note that minor changes in volume during a performance per-

ceptible to the Console operator are rarely noticed by the audience. However, if the channel level is set too high when the channel is turned on, the sound may "blast" the audi- ence, or cause acoustic feedback, or both. Either condition will prove embarrassing to the Console operator.

REVERBERATION

The SR101 Audio Console contains a built-in electro- mechanical spring-type reverberation device utilizing four coil springs in two transmission paths. Reverberation is ac- complished by driving the input ends of the springs in a

torsional mode and transferring the torsional movement

back into an electrical signal which exhibits time delay with a long decay time at the opposite ends of the springs. Since

the reverberation device is electromechanical in nature, it

is sensitive to mechanical shock.

The Console is designed to provide a foundation of "dry,"

or non-reverb, signal on the total output, no matter how the channel REVERB INTENSITY Controls (2) are set. Of great

importance, too, is the fact that reverb intensity can be

increased without increasing overall gain.

In most units

which employ artificial reverberation, the total gain

in-

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creases as the intensity of the reverberant signal is in- creased. This generally leads to acoustic feedback. How- ever, the

SR101 Audio Console reverb mixing system reduces the "dry" signal as the reverb signal is increased; this provides an almost constant gain and reduces the

possibility of feedback as reverb is added.

The following controls are pertinent to reverb operation.

The output of the PROGRAM Switch (13) feeds the channel

REVERB INTENSITY Controls (2). These are dual controls:

one section controls the amount of "dry" signal fed to the

program mix amplifier, and the other controls the amount

of signal fed to the reverb mix amplifier. As each REVERB

INTENSITY Control is increased, the amount of signal to the program mix amplifier is reduced and the amount of signal to the reverb mix amplifier is increased. As stated

above, this action keeps the same approximate overall

volume level to avoid feedback problems. The REVERB

INTENSITY Control is generally used at settings of

0 for

speech, 3-6 for vocals, and 5-10 for instruments.

The reverb mix amplifier combines the output of all chan-

nel REVERB INTENSITY Controls

(2), mixing the signal and

sending it to the REVERB FREQ EQ Controls

(6,4). The output of the reverb equalizer circuit drives the reverbation system. The separate REVERB FREQ EQ-HI and -LO Con- trols affect the reverb signal only. These reverb controls modify the reverberant signals in essentially the same way the channel equalization controls modify both "dry" and reverb signals. The REVERB FREQ EQ Controls allow the

user to change the reverberant sound to compensate for the reverberation in each room in which the Console is used. In a

"boomy" (low-frequency resonant) room, de-

crease the REVERB FREQ EQ-LO Control or increase the

REVERB FREQ-HI Control, or do both until the proper equalized reverb sound is achieved.

The output of the reverberation spring is fed to a dif- ferential amplifier whose output is connected to the RE- VERB Switch (3). This switch turns the reverb system on (in) and off (out) without affecting the overall level or the RE-

VERB INTENSITY Controls (2). In this manner, the RE- VERB INTENSITY Controls may be preset, and when the REVERB Switch is depressed, the reverb level is predeter- mined. The reverb signal, after passing through the RE- VERB Switch, is routed to the program mix amplifier and combined with the "dry" signals from the program channels.

MONITOR SYSTEM

The output of the individual channel MONITOR Switches

(12) are combined in the monitor mix amplifier. The chan- nels that appear on the monitor system are independent of the setting of the PROGRAM Switches (13). This feature allows the signals that do not appear on the program out- put to be fed to the monitor output. This may be useful for providing a

talkback or for a "click track" signal feed.

The monitor mix amplifier is a passive mix amplifier; its

gain depends on the number of channels selected to be monitored. This type of mixing means that as channels are added to the monitor system, the overall apparent level remains constant while each individual channel contribu- tion is reduced. The output of the monitor mix amplifier feeds the PROGRAM MONITOR Switch (11). When this switch is released, the monitor system carries the channels selected by the individual channel MONITOR Switches (12). When the PROGRAM MONITOR Switch is depressed, the monitor system monitors the output of the program mix amplifier.

It should be noted that the individual channel MONITOR

Switches (12) monitor the channels ahead of the reverb, and the PROGRAM MONITOR Switch (11) monitors the entire program after reverb. The output signal from the PROGRAM MONITOR Switch is fed to the MONITOR Level

Control

(lo), which provides an output signal to drive the monitor output amplifier. The signal from this amplifier appears on the MONITOR

OUTPUT/LINE LEVEL Jack (30) on the rear panel, and also through a headphone matching transformer to the PHONES Jack

(8)

on the front panel.

These two outputs may be used simultaneously.

Note that the front-panel PHONES Jack

(8)

permits the use of either monophonic or stereo headphones (4-16 ohms impedance) without rewiring. High-impedance mono- phonic headphones may be connected to the rear-panel

MONITOR

OUTPUTILINE LEVEL Jack (30).

The purpose of the monitor system is to allow an operator to use headphones to monitor the program if the PROGRAM MONITOR Switch (11) is depressed, or to monitor the in- dividual channels. Monitoring the individual channels allows the operator to determine which microphones are in use, which are turned off, or which may be malfunction-

ing. Note that it is also possible to use the monitor output to listen to a microphone or cue a tape that is driving a chan- nel

7

or 8 AUX. LEVEL lnput Jack (32) without having the

signal on the program output.

The second major use of the monitor system is to pro-

vide on-stage monitoring, or foldback, which allows the

performers to hear themselves, but only gives them a

partial mix. This is useful in a system where all the instru-

ments have microphones but the vocalists only want-to hear themselves and one or two instruments, such as the piano,

to be able to keep in tune. When used in this manner, the

MONITOR

OUTPUT/LINE LEVEL Jack (30) is connected

to the input of an auxiliary power amplifier that is connected

in turn to monitor speakers located on stage.

MONITOR MIXER SYSTEM

The rear-panel ACCESSORY OUTPUT/AUX LEVEL Con-

nector (34) of the

SR101 provides for interconnection to up

to eight Shure

SR110 Professional Monitor Mixers. The out- put of each individual channel after the volume, equal- ization and attenuation channel controls appears on this connector as do the

LlNK INPUTIOUTPUT total mix signal

and the power supply connections. The

SRI10 is a self- contained, eight-channel, line level mixer designed for use with the

SRlOl Series 2 or similar equipment. The SR110 can provide a separate stage monitor "mix" that follows the program "mix" levels coming from the eight channels of the

SR101. In addition, it may be used in making multi-

track recordings: use two

SRllOs for stereo and four for

quadriphonic.

The

SR110 provides eight high-impedance, unbalanced, line level inputs to its mixing circuitry, one high-impedance, unbalanced, line level input to its Output Selector Switch

for monitoring the program mix, and one line level,

600-

ohm, balanced output. Individual channel and master vol-

ume controls are provided, as is a switch to choose be-

tween monitoring the channels in use (Mixed Inputs) and the total program mix (Program Input). The Mixed Inputs

position takes the signal from each channel frequency

equalization circuit, and the Program lnput position ob-

tains the mixed signal at the PRE

LINK/POST LlNK Switch

(29).

The SR110 has parallel accessory inputloutput male and female connectors. These connectors permit the connect- ion of additional tandem or "stacked"

SRllOs. A typical

application is shown in Figure

5,

Page 9.

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POWER PA

AMPLIFIER SPEAKERS

LEVEL

-

SRllO STAGE

MONITOR

POWER MONITOR

MIXER

AMPLIFIER

SPEAKER

I

SRllO

MONITOR

MIXER

STEREO

RECORDER

MONITOR

FIGURE

5.

SR110 MONITOR MIXER APPLICATIONS

PROGRAM

MIX

AMPLIFIER

The program mix amplifier is an active mixing amplifier

in which gain remains constant independent of the num-

ber of individual channel PROGRAM Switches (13) that are activated. The output of the program mix amplifier is con- nected through a 560-ohm mixing resistor to the LlNK Jacks

(28,31).

LlNK JACKS

The LlNK Jacks (28,31) on the rear panel of the Console enable the user to interconnect more Consoles for addi- tional inputs or add external equipment, such as equalizers,

compressors, or limiters. When connecting two or more SR101 Audio Consoles together to provide many channel inputs, connect the LlNK OUT Jacks (31) of all the units together. It should be noted that the LlNK OUT Jack is actually a two-way jack; the impedance at this point is actually 600 ohms and any number of units may be tied together at this point. The LlNK IN Jack (28) is an input-only jack and has switching contacts that disconnect the output of the program mix amplifier from the MASTER Volume Control (20).

If an equalizer, limiter or compressor is connected to the Console, the LlNK OUT Jack (31) is connected to the input of the external unit and the output of the external unit is connected to the LlNK IN Jack (28).

The signals at the LlNK JACKS are typically at a level 10

dB below line level. These jacks will accommodate signal

levels in the range between -30 to

+I0 dBm. The LlNK IN input impedance is greater than 20 kilohms and may be considered a bridging impedance. The output of the LlNK

Jacks feeds the MASTER Volume Control (20) which is a

two-section control similar to those used in the individual

channels. The POST

LINK/PRE LlNK Switch (29) on the rear panel, in the monitor circuit, allows the operator to monitor the program before (PRE) or after (POST) the LlNK

Jacks.

FEEDBACK FILTERS

The output signal from the MASTER Volume Control

(20)

attenuator section is sent to the feedback filter circuit at this point. The FEEDBACK FILTERS (15) are four notch filters whose center frequencies are 130

Hz,

800

Hz,

2

kHz,

and

5

kHz.

These jil'lers are designed

to

minimize

the

acoustic feedback (speaker howl or squeal) that may occur through some combination of room acoustics, microphone

and speaker placement, volume increase, or equalization control boost. Each filter modifies the frequency response of the program output, with the lowest (130 Hz) filter af- fecting the lowest feedback pitch (howl) and the highest (5 kHz) filter affecting the highest feedback pitch (squeal). The two center frequency filters affect feedback modes in the middle ranges of the audio frequency spectrum.

The three upper frequency filters have little effect on voice tonal qualities. The 130 Hz filter, generally used to eliminate low-frequency room reverberations, causes some decrease in bass tones. This may be compensated for by increasing the FREQ EQ-LO Controls (5) slightly for the individual channels in use.

If feedback is present, locate the one FEEDBACK FILTER

Switch (15) which eliminates it. Then increase the VOLUME

(1) or FREQ EQ Controls (5,7) as desired until another feed- back pitch occurs. Then locate the filter to eliminate the new feedback mode. IMPORTANT: Up to two FEEDBACK FILTERS may be used at one time; more than two filters will reduce overall gain and significantly affect system tonal quality.

Note that the PHASE Switch

(26), which allows the Con- sole operator to change the output phase, functions to reduce or eliminate acoustic feedback, too. It is normally used to obtain maximum gain before feedback, or to obtain the highest pitched feedback for elimination by the feed- back filters.

PROGRAM OUTPUT

The output signal from the feedback filters drives the program output amplifier. The gain of this amplifier is con- trolled by one-half of the MASTER Volume Control (20) (the other half is a preamplifier output attenuator). The output of the program amplifier is sent to the PHASE Switch (26) mounted on the rear panel of the Console. This switch allows the user to change the phase of the program output, which may be helpful in eliminating or reducing

low-fre- quency acoustic feedback. Generally, this switch is ad- justed to the position which either gives the most gain before feedback or, if both positions give the same gain before feedback, use the position that produces the highest

pitch feedback. The program signal, after leaving the PHASE Switch, is routed to the output transformer which provides both LlNE LEVEL and MIC LEVEL outputs. The LlNE LEVEL output is connected to one professional

three-

pin, male, audio output connector (27) and two three-circuit

phone jacks (25). The MIC LEVEL output is a

low-im-

pedance output, 50 dB below the LlNE LEVEL output, and is connected to a professional three-pin male, audio output connector (24).

Note that all of the program outputs are balanced with

respect to ground. If a phone plug is used to connect the mixer line level output to an amplifier or tape recorder and the phone plug is a two-circuit type, the line outputs will

automatically become unbalanced. If the 3-pin unbalanced

output is used and a phone jack output is

also

to be used, obtain a stereo phone plug and connect the tip and ring of the plug only. (The sleeve is a shield and would cause a ground loop.)

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If it becomes necessary to use the MIC LEVEL Output Connector (24) to feed a high-impedance input, use a matching transformer such as one of the Shure A95 Series at the high-impedance input.

The output of the program output amplifier is also fed

to

the VU Meter (17) circuit.

VU METER CIRCUIT

To allow a wide range of signals to be handled by the VU Meter

(17), a 22 dB VU Meter amplifier is provided. The output of the program amplifier is fed to the METER SENSI- TIVITY Control (18) which in turn feeds the VU Meter ampli- fier and the Meter. The METER SENSITIVITY Control is calibrated in its maximum counterclockwise position only.

The calibration of this position is internally adjusted at the

factory for

+4 dBm at 0 VU across a 600-ohm load on the program output. The VU Meter amplifier provides the proper signal, impedance, and level for proper VU Meter ballistics and calibration. This amplifier also isolates the Meter from the program output and eliminates the distortion normally caused by the nonlinearities of VU Meters.

TONE OSCILLATOR

The Console contains a built-in 1 kHz tone oscillator for

set-up and checkout purposes. The TONE OSC LEVEL Con-

trol

a-nd ON-OFF Switch (16) injects the 1 kHz tone into the program mix amplifier. The tone is processed through the program channel in the same manner as microphone or auxiliary input signals, except that the reverb system is by passed.

When using the tone oscillator, calibrate the Console VU Meter (17) and proceed as follows: With the METER SEN- SITIVITY Control (18) set to CAL, increase the MASTER

Volume Control (20) and TONE OSC LEVEL Control (16)

until a

0 VU reading is obtained on the VU Meter. A tone reference level has now been established. The Console LlNE LEVEL Output

(25,27) is now +4 dBm (1.23 volts) and the MIC LEVEL Output (24) is approximately 4 millivolts. These reference signals may be used to set up power ampli- fiers, tape recorders, or other equipment connected to

these outputs (Figure

6A, Page 10). By adjusting the input level (or volume) controls on the associated equipment, all the meters in the audio system can be made to "track." This allows the Console operator to observe the Console VU Meter (17) to see if all the equipment is in its proper operating range. This reference tone may also be used to check out cables and equipment for proper operation.

To check a microphone cable, connect the cable be- tween the Console MIC INPUT Jack (33) (any channel) and the MIC LEVEL Output Jack (24) (refer to Figure

6B, Page

10). Connect headphones to the PHONES Jack (8). Release the PROGRAM MONITOR Switch

(ll), and for the channel

being used, depress the MONITOR Switch

(12), release the

PROGRAM Switch

(13), and set the FREQ EQ Controls (5,7) to 0, the channel Volume Control (1) to mid-range, and IN- PUT

ATTEN Switch (14) to 0. An audible tone should be heard through the headphones as the MONITOR Level Control (10) is increased.

The same process may be used to check out a Console

channel. With

a

good microphone cable, make the connec- tions described above. The tone should be heard clearly through the headphones. If a channel is suspected of poor quality, it can be compared with another channel by con-

necting the microphone cable to the second channel with all controls set in the same manner as the first. By care-

fully noting the level and quality of tone on each channel,

any significant differences can be established.

To check out an auxiliary channel, perform the process described above, except connect a phone plug to phone plug cable between the LlNE LEVEL Output Jack (25) and the AUX. LEVEL Input Jack (32) for the channel

(7

or 8)

being checked (Figure

6C, Page 10). Set the MIC/AUX

Switch (14) to AUX and INPUT ATTEN Switch to -30.

The tone oscillator may also be used to provide a check of cables and equipment connected to the link output. With the

LINK OUT Jack (31) connected to the input of an ex-

ternal equipment, such as a Shure SE30 Gated

Com-

pressor1Mixer

which in turn feeds a broadcast line, dis- connect the program output, either at the back of the Con- sole, power amplifier or speakers (Figure

6D, Page 10). Turn the METER SENSITIVITY Control (18) to CAL, set the MASTER Volume Control (20) to 7, and increase the TONE OSC LEVEL Control (16) for a

0

VU

Meter (17) reading.

Slide the MASTER Volume Control down to

0. Under this set-up condition, the external equipment may now be cali- brated or checked out without affecting the program output. After calibrating the external equipment, turn off the tone oscillator, and return the MASTER to 7. Reconnect the power amplifier or speakers.

,

MIC~

ILINE,

,

LINE^

,

SR I01 POWER TAPE

AUDIO CONSOLE AMPLIFIER RECORDER

@

MIC LEVEL

1)

MIC LEVEL

INPUT JACK OUTPUT JACK

SR

lOl

AUDIO CONSOLE

0

LlNE LEVEL

INPUT JACK

AUx.

LEVEL

n

OUTPUT JACK

SR

101

AUDIO CONSOLE

I

PHONES JACK

@

POWER AWL

AUX LEVEL

INPUT JACK

I

1

SR lOl

AUDIO CONSOLE

GATED

1

C0E;:SOR

1

I

MIXER

1

FIGURE

6.

TON'E OSCILLATOR APPLICATIONS

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BASIC OPERATING HINTS

Should any difficulty be encountered in Console opera-

tion, the problem may often be traced to some simple

source

such as an error in interconnection. The following

is offered as a basic guide to problems of this sort.

Symptom: Console is

"dead" (no output, VU Meter lamps

out)

Check: 1. Check that ac Dower source is "live" and

2. Check that cable from PROGRAM

OUT-

PUT/LINE

LEVEL Connector (27) has not accidentally been connected to PROGRAM OUTPUT/MIC LEVEL Connector (24).

3. Check that PHASE Switch (26) is not be- tween positions.

4. Check that external equipment is properly connected to

LINK Jacks (28,31).

that Console is plugged in.

Symptom:

One channel is "dead" (other channels

oper-

2.

Check that POWER ON-OFF Switch (19) is

ating properly)

on.

3. Check to see that rear-panel

3AG-3116A Check: 1. Check for defective input cable or source.

SLO-BLO Fuse (22) is good. 2. Check that channel PROGRAM Switch (13)

Symptom:

Console is "dead" (no output, VU Meter lamps

is depressed.

lit) 3. Check that AUX-MIC Switch (14) (channels

Check: 1. Check that PROGRAM Switch or Switches

7

and 8 only) is not between positions or in

(13) are depressed.

the wrong position.

SR101 Series 2 Audio Console

SPECIAL OPERATING INSTRUCTIONS

The previous section described normal interconnection The high-impedance cable should be limited to 6.lm and operation of the SR101 Audio Console; this section (20 ft.). If a long cable length is required, use up to 3.05m provides information on special set-ups to more fully utilize (10 ft.) of high-impedance, single-conductor, shielded the capabilities of the Console.

cable (Belden

#8401, #8410, or #8411) between the micro-

HIGH-IMPEDANCE MICROPHONES

phone and line matching transformer, and add as much

low-impedance, two-conductor, shielded cable

(Belden

UP to two high-impedance dynamic, ribbon or condenser

#8412,'

or #8422) as necessary between the transformer

microphones (crystal or ceramic microphones are not

and Console input jack. These precautions will help avoid

recommended) can be used with the

Console without the

high-frequency

signal loss and reduce the possibility of

need for line matching transformers simply by using the

hum and noise.

AUX. INPUT Jacks (32) on channels

7

or 8 and moving the

corres~ondincl INPUT ATTEN Switch (14) to AUX. NOTE:

INSTRUMENTS

The

very highoutput produced by s0m.e dondenser micro-

Musical instruments, acoustical

(non-electrified), acous-

phones may be compensated for by proper setting of the

tical-electrified, or electrified, may be amplified through the

INPUT

ATTEN Control.

Console. For acoustical instruments, place a microphone

If a high-impedance microphone is to be used with one of

close to the instrument strings, sounding board, or mouth.

the low-impedance MIC LEVEL Input Jacks

(33), a line

Adjust equalization, reverb and volume controls as

neces-

matching transformer (Shure A95 Series) must be used.

sary.

FIGURE

7.

PREAMPLIFIER-CONSOLE CONNECTIONS

11

r

3.05

m

(10') MAX.

-I

PUP

TO

305 m (1000')

LOW IMPEDANCE HIGH IMPEDANCE

AUX OR HEADPHONE

r

A95

LINE

MATCHING

TRANSFORMER

1

-

OUT

MIC LEVEL

INPUT

PREAMPLIFIER

MICROPHONE

CABLE

LOW IMPEDANCE

SR

lOl

AUDIO CONSOLE

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For acoustical-electrified instruments such as classic

or folk guitars with pickups and preamplifier outputs, or pianos with pickups and preamplifier outputs, either place the microphone as described above, or connect the pickup to an AUX. LEVEL lnput Jack (32) on the Console. If the cable from the instrument to the Console is greater than

6.lm (20 ft.), use a line matching transformer as described under High-Impedance Microphones (Page 11). This trans- former also allows the instrument to be connected to chan- nels 1-6. Adjust the Console INPUT

ATTEN Control (14) for the channel in use to provide the desired sound level with the channel Volume Control (1) set at about mid-scale.

To use a preamplifier auxiliary output with the Console (instrument or tape recorder preamplifier, or hi-fi amplifier tape monitor output jack, or headphone jack; never speaker jacks), connect the preamplifier auxiliary output through up to

3.05m (10 ft.) of cable to the high-impedance side of a line matching transformer (Shure A95 Series) as shown in Figure 7, Page 11. Connect the low-impedance side of the transformer through a low-impedance microphone cable [up to 305m (1000

ft.)] to a Console MICROPHONE LEVEL lnput Jack (33). Adjust Console equalization controls for optimum sound. Adjust the Console INPUT

ATTEN Control (14) for the channel in use to provide the desired sound level with the channel Volume Control (1) set at about

mid-

scale.

Fully electrified instruments may also be amplified using a microphone in front of the instrument speaker, or the in- strument output (not the speaker jack) may be fed directly to an input jack as described above. It is important to note that the tonal quality of fully electrified instruments is pri- marily formed by the instrument amplifier and speaker; an external microphone picking up the instrument speaker

output may very well provide a more desirable sound than that obtained by direct connections.

The cable length restrictions applying to high-impedance microphones also apply to most musical instruments (see High-Impedance Microphones, Page 11).

TAPE RECORDING

The Console output may be recorded on a tape recorder from either the LlNE LEVEL Output

(25,27), MIC LEVEL Output (24) or LlNK OUT (31) Jacks. The Console Program Outputs are after the FEEDBACK FILTERS (15) and MAS- TER Volume Control (20); the LlNK OUT Jack is before these circuits. In considering a tape recorder connection,

the operator should consider whether he wants the tape

level to follow the MASTER Control.

To use a LlNE LEVEL Output Jack feeding a

high-impe- dance auxiliary tape recorder input, connect a cable from one LlNE LEVEL Jack to the tape recorder input (see Fig- ure 8, Page 12). If the LINE LEVEL Output is being used and a two-circuit phone jack is used to connect the Console to the tape recorder, this will unbalance the LlNE LEVEL Out-

put (refer to Program Output, Page 9).

If the MIC LEVEL Output Jack (24) is to be used, connect a cable from it to the tape recorder low-impedance micro- phone input. If the microphone input on the tape recorder

is designed to be used with high-impedance microphones

(greater than

1000 ohms), insert a line matching trans- former (Shure A95 Series with proper connectors) between the MIC LEVEL Output Jack and the tape recorder input (refer to Program Output, Page 9).

To use the LlNK OUT Jack

(31), use a two-circuit phone plug on the cable to the tape recorder auxiliary or line input. The input impedance of the tape recorder should be

600

ohms minimum.

The low output impedance of the Console provides for unlimited cable length between the Console output and tape recorder input. Low-capacitance, single-conductor,

shielded cable (Belden

#8401, #8410, or #8411) is recom-

mended to reduce the possibility of hum and noise pickup.

For operation with a stereo tape recorder, refer to Stereo

Operation, Page 16.

LOW IMPEDANCE BALANCED LlNE

SHIELD

MIC LEVEL OUTPUT

\

TRANSFORMER

SRlOl

AUDIO CONSOLE RECORDER

FIGURE

8.

TAPE

RECORDING

RECORD PLAYBACK

To play records through the Console using a turntable

or record changer with a stereo magnetic cartridge and no

preamplifier, the most expedient method is to join the left and right channel leads from the turntable in a

"Y"

adapter and connect the joined output to a channel 7 (or 8) AUX. LEVEL lnput Connector (32) on the Console (see Figure

9A, Page 13). Note that the total lead length between turntable and Console should not exceed five feet. To approximate the RlAA equalization curve, set the Console FREQ EQ-LO Control (5) to +4, the FREQ EQ-HI Control (7) to -6, and the INPUT

ATTEN Control (14) to 0 for the channel (7 or 8)

being used. Adjust the channel Volume Control (1) as

necessary.

A better method of performing this interconnection in- volves the use of a phono preamplifier such as the Shure M64 Stereo Preamplifier (see Figure

96, Page 13). In this set-up, RlAA equalization will be achieved at the preampli- fier, before the signal enters the Console. In this manner, the Console equalization controls may be used to optimize the room sound, rather than compensating for the input signal. The joined turntable leads enter the channel 1 input of the preamplifier, and the output is taken from the channel 1 low level output and fed to the channel 7 (or 8) AUX. LEVEL lnput Jack (32) of the Console. Set the Console

INPUT

ATTEN Control (14) to 0 with this set-up.

Note also that this set-up removes the cable restriction

between turntable and Console described above: although

a maximum of

1.5m

(5

ft.) between turntable and pre- amplifier is mandatory, the cable length between the pre- amplifier and Console is virtually unlimited.

TAPE PLAY BACK

To play tape-recorded material through the Console, connect a cable from the tape recorder auxiliary or line level output to the channel

7

or 8 AUX. LEVEL lnput Jack (32). Turn the front-panel AUX-MIC Switch (14) on Channel 7 or 8 (whichever is being used) to AUX. Set the INPUT

ATTEN Switch (14) to -20 to start, and adjust it and the

channel Volume Control

(1) as required.

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FIGURE

9.

RECORD PLAYBACK

,

lTl.5~~~m~y

,

@

CHANNEL

7

OR

8

AUX

LEVEL

INPUT

TURNTABLE

SR

lOl

FREQ.

EQ-LO:

+4

AUDIO

CONSOLE

(

FREQ.

EQ-HI:

-6

)

1.5

m

(5') MAX.

3

PUP

TO

305

m

(1000')

TALKBACK CIRCUIT

It is often necessary to provide a "talkback" circuit (or

"intercom," or

"com line") to enable the Console operator

to instruct or cue performers, lighting control, announcers,

etc. It also enables the operator to avoid hand or light sig- nals which may not be visible during a performance. The talkback circuit requires the use of one input channel, re- moving that channel from use by performers. Note too that the monitor circuit is being used, preventing its use for other purposes.

To use low-impedance (not carbon) microphones, con- nect the microphone of a single headset-microphone to a Console MIC LEVEL lnput Jack (33) (see Figure 10, Page

13). Connect the headset to the front-panel PHONES Jacks (8). For high-impedance headphones, connect to the rear- panel MONITOR LlNE LEVEL Jack (30). Additional head- sets may be connected through

"Y"

adapters to the

PHONES or MONITOR LlNE LEVEL Jack. If additional

microphones are to be connected,

"Y"

adapters (Switch-

craft

391Q13,391Q53 or equivalent) should be used to con- nect these to the MIC LEVEL lnput Jack. Depress the MONITOR Switch (12) for the

talkback channel and adjust

the MONITOR Level Control (10) as desired. Do not depress

the PROGRAM Switch (13).

@

CHAN.

I

INPUT

MIC

LEVEL IN

L

,

SR

lOl

AUDIO CONSOLE

I

PHONES

If this set-up does not work, and the microphone type

being used is unknown, it is possible that it is a carbon

microphone. To use carbon microphones such as found in

Western Electric-type operator's headsets, a battery power supply is required to power the microphone (see Figure 11,

Page 13). A common battery may be used for powering a

number of carbon microphones, though each microphone

requires its own 100-ohm resistor and Shure A95 Series

line matching transformer.

Should a large number of headphones be required, a power amplifier or headphone distribution amplifier should be inserted in the headphone circuit between the MONI- TOR LlNE LEVEL Output (30) and the distribution amplifier input.

M64

STEREO

PREAMPLIFIER

*

CHAN.

I

LOW

LEVEL

OUTPUT

AUX

LEVEL

INPUT

TURNTABLE

FIGURE

11.

CARBON MICROPHONE POWER SUPPLY

ADDITIONAL MIXER INPUTS

Additional microphone or other source inputs may be obtained using a high gain, low noise, microphone mixer such as the Shure

M68FC. When connected to a MIC

LEVEL lnput Jack

(33), the M68FC and SR101 Audio Con-

sole will provide a total of 11 inputs (see Figure

12A, Page

14). (Note that adding a mixer at an lnput Jack converts

that channel to a submaster control; the total number of

inputs will thus be the mixer total plus the Console total

-

FIGURE

10.

TALKBACK CIRCUIT

8 - minus 1 for the submaster.)

SR

lOl

AUDIO

CONSOLE

LOW

IMPEDANCE

100

OHMS

1/2

W

?#

ONLY

ONE

CHANNEL

IS

USED

FOR

THIS

APPLICATION.

D

3-6V

CARBON

LANTERN

+

MICROPHONE

BATTERY

,

NEDA

915

,908

-

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A common practice when adding a mixer in this manner is to connect similar-use microphones (for instance, all drum, string or horn microphones) to a single mixer which

is fed into the Console. The Console individual channel Volume Control (1) then controls an entire section, fa- cilitating adjustment of that section during a performance. With this set-up, set the channel INPUT

ATTEN (14) to 0 and adjust the mixer volume controls in the mid-to-high range; adjust the mixer master volume control as required to keep the Console volume control in the desirable middle range.

The

M68FC mixer has a switch-selectable low- or high- impedance microphone output. When using an M68FC-type mixer into a Console MIC LEVEL lnput Jack (33), set the mixer MIC OUT switch to low impedance, and make neces- sary adjustments as described above. It is sometimes de- sirable to use the auxiliary output from the mixer into the Console channel 7 (or 8) AUX. INPUT Jacks (32) if the mixer output is derived from a source which is not required con- stantly (such as an orchestra); the same channel

7

(or 8) MIC LEVEL lnput Jack can be used as a regular microphone input, with the front-panel AUX-MIC Switch (14) selecting one or the other for the program. (Refer to lnput Channels,

Page 5, for a description of the AUX-MIC Switch function.)

To use this set-up with an

M68FC mixer, connect a cable

between the mixer auxiliary output (phono pin jack) and the Console AUX. INPUT Jack (32) on channel 7 (or 8) (phone jack) (Figure

128, Page 14). Set the Console INPUT ATTEN

Control (14) to -20. To use this set-up with other mixers,

LOW IMPEDANCE

MIC LEVEL MIC LEVEL

AUX LEVEL AUX LEVEL

MlXER

LINE OUT OR AUX LEVEL

PHONES OUT

0

MIXER

PHONES

TOTAL:

I2

CHANNELS

SRlOl

IN0

EQUALIZATION OR

MIXER

REVERB

ON

~67 INPUTS)

I

600n

;IP;

,

LINE OUT

MIXER

SRlOl

AUDIO CONSOLE

FIGURE

12.

ADDITIONAL MIXER INPUTS

essenfially the same procedure is followed. The Shure M67 mixer, for instance, may be connected to the Console AUX:

INPUT Jack through the mixer line out connector (binding posts) or headphone output (phone jack) (Figure

12C, Page

14). Because of the difference in outputs between 'the M68FC and M67, the Console INPUT ATTEN Control, when used with the M67, should be set at -30. Note that the

M67 microphone output should not be used into the Con-

sole AUX. INPUT without a line matching transformer.

If a mixer is to be used with the Console but it is desirable to maintain as many Console channels as possible, the mixer can be connected to the Console LlNK OUT Jack (31) (Figure

12D, Page 14). However, this requires sacrificing the channel reverb, equalization and monitor functions for the sources entering through the mixer (monitoring of the total program can still be accomplished with the POST LINKIPRE LlNK Switch (29) set to POST LINK). The only

Console control functions operating on the mixer sources

in this set-up are the MASTER Volume Control

(20), FEED-

BACK FILTERS Switches

(15), and rear-panel PHASE Switch (26). In addition, any mixer used in this set-up re- quires a 2.2-kilohm resistor in series with the mixer output to provide an attenuator bridging connection; the resulting signal level will be down -10 dB (see Figure

12D, Page

14). The M67 Mixer headphone jack has suitable built-in resistors and may be connected directly to the Console

LlNK OUT Jack. Only mixers with 600-ohm line outputs may

be used in this configuration. Note that the Shure

M68FC

mixer cannot be used this way.

The mixer-to-link jack connection can also be used with

several mixers. Each mixer output must contain its own

2.2-kilohm resistor prior to being joined in a

"Y"

adapter.

Any number of M67 mixers may be interconnected by

connecting their headphone jacks in parallel. The paral-

leled headphone output is then connected to a Console

AUX. LEVEL lnput Connector (32). The INPUT

ATTEN Control (14) should be set at -20 as an initial position and adjusted in balance with the M67 meter reading and the channel 7 (or 8) Console Volume Control setting (1). In this set-up the M67 VU meter switch should be set at +4, the

master volume to 3, and the individual volume controls to

7 or

8.

ADDITIONAL CONSOLE INPUTS (TWO CONSOLES)

A total of 16 microphone inputs can be obtained using two Consoles in a common mix mode. Connect a cable to the "slave" Console LlNK OUT Jack (31) and to the "mas- ter" Console LlNK OUT Jack (Figure

13A, Page 15). Note

that the LlNK OUT Jack is both an input and output jack.

This interconnection provides a two-way path between the two Consoles. When operating the two Consoles side by side, the slave input can be monitored on the master Con- sole as part of the total program output with the POST

LINK/PRE LlNK Switch (29) set to POST LlNK and the PROGRAM MONITOR Switch (11) depressed. With the POST LINKIPRE LlNK Switch in the PRE LlNK position the Program Monitor only monitors the eight inputs on that Console. The monitor point is switched ahead (PRE) of the LlNK Jacks. In this set-up both Consoles contain the total program mix. Each Console MASTER Volume Control (20) is independent, and may be used to control two separate program outputs.

An expansion of this method of interconnecting two Con- soles which will enable full monitoring involves the sacrifice

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FIGURE

13.

ADDITIONAL INPUTS: TWO CONSOLES

8

INPUTS

8

INPUTS

@

A

OPTIONAL SLAVE

1111111

LINK LINK

111111

I

TO POWER AMPLIFIER

LINE

OUT OUT OUT

of one master Console input channel (Figure 13B, Page 15). Connect a cable between the master Console channel 7 (or 8) AUX. INPUT Jack (32) (phone jack) and the slave Console rear-panel MONITOR LlNE LEVEL Output Jack (30) (phone jack). Set the master Console channel

7

(or 8)

INPUT

ATTEN Control (14) to -30, channel Volume Control (1) to mid-range, and channel PROGRAM Switch (13) to off. To monitor, for instance, channel 2 on the slave Con- sole, depress the slave channel 2 MONITOR Switch

(12), release the PROGRAM MONITOR Switch (ll), and preset the channel

2

Volume Control to mid-range. On the master

Console, depress the MONITOR Switch for channel

7

(or 8), and release the PROGRAM MONITOR Switch. With the master Console MONITOR Level Control (1) previously ad- justed for normal listening, adjust the slave Console MONI- TOR Level Control for the same level.

The interconnections used in the above paragraph may

also be used in a set-up where the slave Console is to feed

a built-in, or

"house" PA (Figure 138, Page 15). In this set-

up, the master Console feeds the portable power amplifier

and speakers, or

a

broadcast line feed, or a tape recorder.

Connect the slave Console program output, either LlNE

LEVEL

(25,27) or MIC LEVEL (24) to the input of the "house" PA. The master Console MASTER Volume Control (20) will control the portable system speakers; the slave

Console MASTER or channel Volume Controls (1) will con-

"SLAVE"

SRlOl

AUDIO CONSOLE

trol the "house" speakers. Note that this set-up provides total

or

selective channel monitoring from the slave Con-

sole at the master Console.

A different set-up that uses the slave Console as a

sub- master is made by connecting the slave Console LlNK OUT Jack (31) to the master Console channel

7

(or 8) AUX. IN-

PUT Jack (32) and the slave LlNK IN Jack (28) to the master

LlNK OUT Jack (31) (refer to Figure 13C, Page 15). In this set-up the total mix from the slave Console enters channel 7 (or 8) on master Console channels and may be monitored from the master Console; individual slave Console channels

must be monitored from the slave Console monitor system. This set-up is

helpful.when an orchestra (or band) is mixed on the slave Console. The channel 7 (or 8) Volume Control on the master Console provides a single control (sub-

master) to mix the total orchestra sound with the vocals. The result is that the two MASTER Volume Controls (20) provide two independent outputs, each with the total pro- gram mix and each with separate equalization adjustments.

Note that two Shure

SRllOs may be added to provide a

monitor output for the

16

inputs.

"MASTER"

SRlOl

AUDIO CONSOLE

REDUNDANT CONSOLE SET-UP

(TWO

CONSOLES)

Two Consoles can be connected in parallel such that

certain types of failure in one will not cause the loss of

channels connected to that Console; in a failure in the

@

8

INPUTS

7

INPUTS

TO POWER AMPLIFIER

AUDIO CONSOLE AUDIO CONSOLE

0

TO POWER AMPLIFIER,

TO HOUSE PA

BROADCAST LINE. OR TAPE

RECORDEE

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output of one Console, the channel inputs of both units

will be routed through the operative Console. This type of

system is termed "redundant," that is, the reliability of the

system is enhanced through parallel functioning devices.

Connect a cable between the LlNK OUT Jacks (31) of

each Console. Construct a resistor network as shown in

Figure 14, Page 16, and insert it between the

LlNE LEVEL Output Jacks (27) on both Consoles and the balanced bridging input of the power amplifier. The resistor network matches the output of the two Consoles to the balanced line to the power amplifier.

A method of total redundancy using two Consoles is

to

parallel-connect

("Y")

all inputs using Switchcraft 391Q13,

391Q53

or equivalent adapters. The second (redundant)

Console may be kept on with all Volume Controls

(1,20)

down, and the required controls brought up to the desired

level only upon. failure of one channel. The same output

attenuator network as described above is required.

STEREO OPERATION

Stereo operation, for PA or tape recording purposes, may be accomplished in several ways. The most common are described in the following paragraphs.

Stereo operation is most easily achieved using the set- up previously described in Monitor Mixer System, Page 8. The use of Shure

SRllOs as shown in Figure 5, Page 9, provides for a stereo tape recorder mix which is separate from the PA and stage monitor mixes.

Stereo operation may obviously be obtained by using two Consoles in separate PA systems without any system interconnections. If it is desired to have one microphone

connected to both systems, use

a.

"Y"

adapter (Switch- craft 391 Q13, 391 (2.53 or equivalent) on the microphone and feed its output to a MIC LEVEL

lnput Jack (33) on

FIGURE

14.

REDUNDANT CONSOLES

16

I

each Console. To record stereo tapes with this set-up, connect the

LlNE LEVEL Output Jack (25) on one Con- sole to the left input channel of a stereo tape recorder and the

LlNE LEVEL Output Jack on the other Console to the

right input channel.

An alternate method of stereo operation using only a single Console involves the use of the program output sys- tem as one stereo channel (right) and the monitor output

system as the other channel (left). With microphones placed

for stereo effect, connect a PROGRAM

LlNE LEVEL Out- put Jack (25) to the right power amplifier and speaker set (or the right channel input of a stereo tape recorder), and

the MONITOR LlNE LEVEL Output Jack (30) to the left

power amplifier and speaker set (or the left channel input of the stereo tape recorder). Depress the channel PRO- GRAM Switches (13) for the microphones assigned to the right, and depress the MONITOR Switches (12) for micro- phones assigned to the left. Release the PROGRAM MON- ITOR Switch (11). Center microphones may be assigned to both left and right channels by depressing both PRO- GRAM and MONITOR Switches for those inputs. Note that the channel MONITOR Switches should be preset and not changed during a performance because the total MONITOR level changes as a function of the number of inputs as- signed to the MONITOR system. Also note that reverb is obtainable only on those inputs whose PROGRAM Switches are depressed. This set-up works well for stage plays where the left and right speakers are closely spaced, such as to the sides of a narrow stage, and are projecting into a deep room. Shure speaker columns are an ideal speaker choice because of their wide horizontal coverage

pattern.

A convenient method of stereo recording is to record the vocals on one tape channel and the instruments on the other. For this set-up, connect either the Console MIC

LEVEL (24) or

LlNE LEVEL (25) Output Jack to one chan-

nel input of a stereo tape recorder (refer to Tape Record- ing, Page 12). Connect a microphone to the remaining tape channel input; an omnidirectional unit suspended from the ceiling will pick up the full acoustic output of the

instruments.

An expansion of the stereo recording set-up described above-separate vocal and instrument channels-depends on whether the stereo tape recorder to be used has a

single set of inputs (MIC) or whether it also has auxiliary (AUX) inputs with separate volume controls. With micro- phone and auxiliary inputs, connect the system as shown in Figure

15A, Page 17. Place the vocal microphones as required and connect them to the MIC LEVEL lnput Jacks (33) of the Console. Connect the LlNE LEVEL Output Jack (25) through a

"Y"

adapter to the auxiliary inputs of the tape recorder. Place the instrumental microphones as re- quired and connect them to the microphone inputs of the tape recorder.

If the stereo tape recorder has a single set of inputs, that is, when the auxiliary inputs are connected, the micro- phone inputs are disconnected, or if separate volume con- trol of the microphone and auxiliary inputs cannot be

main.- tained, then a stereo mixer such as the Shure M688 may be used to combine the Console output prior to entering the recorder (refer to Figure

15B, Page 17). Place the vocal

microphones and connect them to the Console MIC LEVEL

lnput Jacks (33). Connect the Console MIC LEVEL Output

Jack (25) to the MIC 4 input of the

M688. Place the instru-

mental microphones as desired and connect them to the

MIC 1 (left) and MIC 2 (right) inputs of the

M688. Connect

r

LlNK

OUT

SR lOl

AUDIO CONSOLE

J

POWER

AMPLIFIER

LINE

LEVEL

I

RESISTIVE

NETWORK

I

LINK

OUT

SRlOl

LlNE

AUDIO CONSOLE

LEVEL

I I

POWER

AMPL

I

BALANCED

I

BRIDGING

LINE LEVEL

I

INPUT

RESISTORS ARE CARBON COMP..

112 W,5%

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the left and right auxiliary outputs of the M688 to the auxiliary inputs of the tape recorder. Before making re-

cordings, adjust the M688 MIC 4 slide control to a mid-

position for the most desirable balance of vocal microphone

levels.

REMOTE VOLUME CONTROL

A

remote volume control may be constructed for' ad- justing the output level at a considerable distance from the Console. For remote control up to 50 feet, obtain a

linear-taper potentiometer with knob (any value from 1000

to 2500 ohms), a standard phone plug, and a length of

single-conductor, shielded microphone cable (such as Belden #8401, #8410, or #8411). Connect the potentiom- eter and plug as shown in Figure 16A, Page 17, and con- nect the phone plug to the Console

LlNK OUT Jack (31).

If hum or noise is encountered with the above set-up,

it may be necessary to provide a two-wire control. Using the same potentiometer, obtain two standard phone plugs and twice the desired length of single-conductor, shielded

microphone cable. Connect the potentiometer and plugs

as shown in Figure

16B, Page 17, and plug the control

assembly into the LlNK OUT (31) and LlNK IN (28) Jacks.

For distances over

15.2m (50 ft.) or for permanent in- stallations where hum or noise may be encountered, use low-capacitance, two-conductor, shielded cable

(Belden

#8412

or #8422). Connect as shown in Figure 16C, Page

17, and use a metal box to contain the potentiometer. The cable shield must be connected to the metal box contain- ing the

potentbmeter, to the common conductor (black),

and not to the sleeve connections of the phone plugs.

IMPORTANT: To avoid hum caused by a ground loop, do not ground the metal box to any metal such as electrical conduit, water pipes, heating ducts, or structural steel.

STEREO

0

RECORDER

(INSTRI MIC IN

TELEPHONE LlNE SURGE PROTECTION

When using the Console to feed a telephone line that may be subject to lightning-induced voltage surges, the following part should be installed across the telephone line to provide additional protection for output circuit com- ponents: Thyrector, General Electric Part No.

6RS20SPlBl.

(

"OCAL'

--

I

LlNK

SR

101 OUT

AUDIO

CONSOLE

-j

1

+a

-

SR 101

AUDIO

CONSOLE

--

SRlOl LINK

AUDIO CONSOLE

)N

1 1

I

L

---------

J

SRlOl

AUDIO CONSOLE

FIGURE 15. STEREO TAPE RECORDING FIGURE

16.

REMOTE VOLUME CONTROL

@

L

D

(INSTRI

h

::

D

M688 STEREO

STEREO

rT

TAPE

MIXER

R

RECORDER

*NOTE,

THIS TYPE OF RECORDER DOES HAVE SEPARATE MIC AND AUX CONTROLS,AND PLUGGING IN THE

AUX

INN1 JACK USUALLY DISCONNECTS

THE MIC INPUT.

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SR101 Series 2 Audio Console

SERVICE INSTRUCTIONS

WARNING

Voltages in this equipment are hazardous to life. Make all input and output connections with ac power dis- connected. Refer servicing to qualified service per- sonnel.

CONSOLE SERVICE (SEE GUARANTEE, Page

22.)

SERVICE ACCESS

The SR101 Audio Console uses components of the high-

To open the Console for servicing, carefully place the

est quality, operating well within their respective ratings

Console front-panel downward on a firm, flat, padded

sur-

to assure long life.

face. A rubber, plastic, corrugated cardboard, or cloth pad

should be placed between the work surface and the Con- sole controls. Remove the three Phillips head screws se- curing the upper and lower rear panels to each other, the four Phillips head screws securing the lower rear panel to the Console sides, and the two Phillips head screws se- curing the upper rear panel to the Console sides. Open the two halves to the limit of their hinges (lower half first) to obtain access to the printed circuit boards (NOTE: Al- though not normally required for servicing, the lower

REPLACEMENT PARTS

panel may be completely removed from thi Console by removing two hex-head screws, one at either side of the

Parts that are readily available through local electronic

console

case,

and

disconnecting

the

black

ground

lead.)

parts distributors are not shown on the accompanying

Parts List. Their values are shown on the Circuit Diagram

(Figure 31, Pages 44-45). Commercial parts not readily available and unique parts are shown on the Parts List and may be ordered directly from the factory.

The commercial alternates shown on the Parts List are

not necessarily equivalents, but may be used in the event

that direct factory replacements are not immediately avail-

able. To maintain the highest possible performance and reliability Shure factory replacement parts should be used.

When ordering replacement parts, specify the Shure Re-

placement Kit Number (RKC), description, product model number, and serial number.

FUSE REPLACEMENT

To replace line fuse F1 (with no apparent problems in

the Console), disconnect the line cord from the ac source

and remove the rear-panel fuseholder cap. Replace the defective fuse

only

with a 3AG-3/16A Slo-Blo fuse (SRI 01

only;

SR101-2E contains a 0.1A Slo-Blo fuse for 180- to

250-volt operation, or a

0.2A Slo-Blo fuse for 90- to 132-

volt operation).

CAUTION

If trouble symptoms-overheating, erratic operation, etc.-were apparent before the fuse blew, or if the re- placement fuse blows, a qualified serviceman should troubleshoot the Console carefully to find the source of the trouble. Do not continue to replace fuses until the trouble has been corrected.

The Console also contains two wired-in fuses, one in

series with rear-panel line fuse

F1 (F2, 3/10A, Slo-Blo) and

one in the meter and accessory lamp circuit

(F3,

IA, Slo- Blo). If replacement becomes necessary, replace only with identical fuses.

KNOB REPLACEMENT

All front-panel control knobs are pull-off types and are

interchangeable with others of the same function. The

only exceptions are the channel

7

and 8 INPUT ATTEN Switches (S7,S8) which contain separate AUX-MIC knobs. When ordering replacement knobs, be sure to order the

proper color-coded type for the desired control.

LAMP REPLACEMENT

To replace either of the two #47 lamps (PLI,PL2) illumi-

nating the VU Meter

(MI), carefully raise the metal clip

assembly holding the lamp to be replaced upward and off the Power Supply printed circuit board bracket. Lift the lamp socket upward, taking care not to crimp or

break any associated wiring. Replace the defective lamp

and carefully return the lamp assembly to its original

position.

REVERBERATION ASSEMBLY

To remove the Reverberation Assembly (AlO), first dis- connect the input, output and ground leads. Remove the four Phillips head screws securing the assembly to the

lower rear panel and remove the assembly. If the Console

is to be operated with the Reverb Assembly removed, make sure the associated wires are not left free to short out any other wiring. Remove the input and output wires from the Reverb Spring Amplifier circuit board, and remove the ground wire from its lug.

BOARD REMOVAL

The various printed circuit boards are mounted in dif- ferent manners. The following paragraphs describe the best method of removing these boards after wires and

cable assemblies have been removed.

IMPORTANT:

When

disconnecting push-on terminals or soldered board con-

nections, make sure each wire is identified for proper re- connection. This may be done by affixing a piece of mask- ing tape marked with the connection or terminal letter or color to each wire.

CAUTION

Push-on terminals must be removed by pulling termi- nals straight up from printed circuit board surface.

Do not apply side force when removing or recon- necting terminals, or damage may result.

Refer to Figure 17, Page 19, for location of each board.

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AIO MP12 AI-A9 RIB -RE0 RIA-R8A

BD.5

R168

"i16

1

J'"

""

J"'/

~"3""

1'

s"

I"\

"

\""

\

TI-TB R27 J12 J17 J21 JII J14 J15 J13

FIGURE

17.

PRINTED CIRCUIT BOARD AND PARTS LOCATION

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VU METER REMOVAL

The function of each board assembly is defined in the table below.

Board No.

1 2A 28

3

4 5 6

7

8

9

0

Function

Preamplifier Board ~~ualizer Boards (8)

Reverb Equalizer Board Program Mix Amplifier Board Reverb Mix Amplifier Board Program Output Board Feedback Filters Board Reverb Spring Amplifier Board

Monitor Board Power Supply Board Program Mute Board

Component

A magnetic screwdriver is recommended for board fastener removal. When removing front-panel control or switch retaining nuts with a

M"

nutdriver or wrench, be careful

not to damage the black plastic surface.

Preamplifier Board

(1):

Remove the seven screws secur- ing the board to the upper rear panel, disconnect the eight color-coded channel output leads, and lift the board up and over for service access. When re-fastening the board, be careful not to crimp wires or wiring assemblies beneath the board.

Channel and Reverb Equalizer (Board

2):

Each of these nine boards may be removed by removing the two front- panel equalizer control knobs and retaining nuts asso- ciated with that channel. The eight Channel Equalizer boards (not the Reverb Equalizer board) are identical and may be interchanged without modification.

Program Mix Amplifier (Board

3):

Remove the four front-panel REVERB INTENSITY Control knobs and re- taining nuts for channels

5

through 8, and lift the board

straight up.

Reverb Mix Amplifier (Board

4):

Remove the four front-

panel REVERB INTENSITY Control knobs and retaining

nuts for channels 1 through 4, and lift the board straight up.

Program Output (Board

5):

Remove the three screws securing the board to the front panel and lift straight up. (NOTE: The VU Meter Calibration resistor

(R529) is acces-

sible without removing the board.)

Feedback Filters (Board

6):

Remove the two screws se- curing the filter switch frame to the front panel and lift straight up. Be careful not to damage the electrostatic foil shield when removing or inserting board.

Reverb Spring Amplifier (Board

7):

Remove the four

screws securing the board to the front panel and lift straight

UP.

Monitor (Board

8):

Remove the two side-panel screws securing the bracket above the Monitor board. Remove the two screws securing the board and lift the board straight

UP.

Power Supply (Board

9):

Remove the four screws secur-

ing the board and lift straight up.

Program Mute (Board

0):

Remove the two screws secur-

ing the bracket on which transformer

T9 and the Program

Mute board are mounted. Turn the bracket so that the four screws securing the Program Mute board can be removed. When replacing the board, be sure to pass the same wires between the board and bracket as were re- moved.

If the VU Meter

(MI) requires replacement, remove it as follows. Disconnect all push-on terminals on the Power Supply board (Figure

17,

Page 19). Remove the t&o screws securing the Power Supply bracket to the side panel. Swing the Power Supply bracket to one side, exposing the VU Meter. Remove the two wires connected to the VU Meter. Remove the two screws in recessed slots near the meter

electrical contacts; this will free the meter retaining brack-

ets, bracket screws, and rubber feet. Carefully pass the meter assembly out through the front panel. To reassemble the meter, reverse the above steps, taking care to insert

the bracket screws in the closed-end eyelets in the rubber feet and tighten them as necessary to retain the meter against the front panel.

CAUTION

Do not overtighten screws so as to deform meter retaining brackets.

Make sure the red and green leads from transformer

TI1 are positioned behind the electrostatic foil shield flap at- tached to the Feedback Filters board.

VU METER CALIBRATION

With the Console turned off, the front-panel VU Meter (MI) should read 0 on the lower of the two meter scales. If it does not, adjust the screw below the meter face to

obtain the correct reading.

To calibrate the meter, connect an ac voltmeter across

the PROGRAM

LINE LEVEL OUTPUT (J14-J16). Turn on

the Console and adjust the TONE OSC LEVEL Control

(R9) and the MASTER Volume Control (A9) until a reading of +4 dBm (1.228V across 600 ohms) is obtained on the volt- meter. Turn the front-panel METER SENSITIVITY Control (R17) to the CALIBRATE position. Adjust potentiometer R529 (VU Calibrate) on the Program Output board until the VU Meter reads

0 on the upper of the two scales.

Note that the VU Calibrate potentiometer range allows

the VU Meter to be adjusted to

0 for any output between

0 dBm and

+8

dBm.

VOLUME CONTROL ASSEMBLY

To replace a channel or MASTER Volume Control as-

sembly

(Al-A9), proceed as follows. Pull off the front-panel slider knob for the assembly to be replaced. Unsolder the leads connected to each potentiometer in the assembly, noting each lead connection. (Note that the lower potenti- ometer-"B" section-utilizes only two of the three leads.) Remove the two screws and lockwashers securing the assembly to the front panel. Carefully lift the Volume Con- trol assembly up and out of the unit. Replace the new assembly by reversing the above steps.

To replace the black plastic dust cover

(MP12) surround-

ing the Volume Control assembly (see Figure 18, Page

21), remove the assembly as described in the paragraph above. Remove the original dust cover by lifting both ends off the slide actuator and sliding the dust cover out from beneath the guide attached to the side of the mounting bracket opposite the actuator. Attach one end of the new dust cover to the slide actuator and pass the other end

over the lower black plastic bearing assembly. Insert the

loose end between the metal guide and synchronizing

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POTENTIOMETERS

RIA-RBA, R16A SLIDE ACTUATOR

SYNCHRONIZING

\

/

POTENTIOMETERS APPROXIMATELY

RIB-R88, R16B 1/16 IN. PLAY

LOWER

BEARING

ASSEMBLY

'-SETSCREW

\LOWER

PULLEY

FIGURE

18.

VOLUME CONTROL ASSEMBLY

belt, pass it over the upper black plastic bearing assembly, and attach it to the slide actuator. Reassemble the Volume Control assembly as described above.

To replace one of the linear volume potentiometers (Rl-R8: individual channels; R16: MASTER), remove the assembly and dust cover as described above. Using an

0.050" Allen wrench, loosen and remove the pulley at- tached to the potentiometer to be replaced and the syn- chronizing belt. (NOTE: The upper potentiometer is the "A" section and the lower is the

"B"

section for each

Volume Control assembly.) Use a

3/8" wrench to remove

the old potentiometer. Position the new potentiometer in the mounting bracket, leads extending away from the

actuator side of the assembly, and finger-tighten the

3/e"

mounting nut. From the potentiometer shaft side of the assembly and with the actuator upward, rotate both po- tentiometer shafts clockwise (from shaft side) to their

stop positions. Note the setscrew position on the remain- ing pulley. Carefully insert the removed pulley, washer side toward mounting bracket, with the setscrew facing in the same direction as the setscrew on the other pulley. Slip on the synchronizing belt over the two pulleys.

Before tightening the

%I' nut on the replaced poten- tiometer, position the upper potentiometer to provide about

%,'I

(1.6 mm) play in the belt. The upper poten- tiometer is adjustable to set synchronizing belt tension: if the lower potentiometer has been replaced, tighten the lower potentiometer and loosen, adjust and tighten the upper potentiometer. If the upper potentiometer has been

replaced, adjust it for proper belt tension, and tighten. (NOTE: The simplest method providing proper belt play is to hold the assembly by the mounting frame vertically with the actuator resting on the platform of a small postal scale or attached to a small spring scale, and move the assembly downward. A 1 pound maximum-approximately

454

grams-force should be required to move the actuator.) When the potentiometer is properly positioned, tighten the

3/s"

mounting nut. Make sure the replaced pulley is aligned with the center of the nearest black plastic bearing assembly and tighten the pulley setscrews. Move the actuator along the length of its travel. The actuator should move smoothly from one end to the other. If it stops before reaching the end of its normal movement, gently but firmly force the actuator to "jump" as many teeth as necessary to reach the end. Replace the black plastic dust cover and the entire assembly as described in the first

two paragraphs of this section.

PARTS REMOVAL

Access to certain parts in the Console is not always apparent due to the large number of parts and assemblies, and the requirements for their placement. The following information is given to help locate and gain access to these

parts (see Figure 17, Page 19).

PHONES Jack

(J18), transformer TI0 and MONITOR Level Control (R20) may be reached by removing the bracket over the Monitor board. The bracket holding trans- former

TI0 must be removed for access to potentiometer

R20.

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Insert assemblies for MIC LEVEL Input three-pin, pro-

fessional, female connectors for channels

2

through

7 (J2-J7) may be removed by first removing the transformer or transformers

(TI-T8) mounted above the desired con-

nector.

Three-pin, professional, male, audio connector J14 (LINE LEVEL Output) may be removed by first removing the bracket containing the Program Mute board.

The TONE OSC LEVEL

Switch/Control (R9), METER

SENSITIVITY Control

(R17), and POWER ON-OFF Switch (S29) are accessible by removing the knob and retaining nut on the desired control, and removing the two screws securing the Power Supply bracket to the side panel. Carefully swing the bracket to one side, exposing the control.

All push-button switches, with the exception of the FEEDBACK FILTER Switches which are fastened to the Feedback Filters board, may be removed by disconnect-

ing electrical connections, and either unscrewing the screws of the switch module frame or bending the switch module mounting tab into line with its slot and removing the individual switch module.

TRANSISTOR AND DIODE REMOVAL

Most transistors and all diodes used in the Console are mechanically supported by their leads. When replacing these devices, proper lead configurations must be followed.

Minimum soldering heat (preferably with a low-wattage soldering iron) should be used to avoid damage to the device. Be sure to place heat-shrinkable tubing or "spa- ghetti" on leads where the original device contained such tubing. Transistor lead codes are included in the Notes

to Circuit Diagram (Figure 30, Page 41).

IMPORTANT: Be sure to replace ferrite bead rings on those transistor leads where they were removed.

TRANSISTOR AND DIODE CHECKING

Defective transistors and diodes may be located by

use of a standard ohmmeter such as a

Simpson 260. Polar- ity of the ohmmeter must be verified before these checks are made.

With a known diode orientation, measure the diode re- sistance in the forward and reverse directions. The lowest meter reading will establish the probe at the cathode end (schematic symbol arrow points to cathode) as the "minus" probe while the other probe will be "plus." Some ohm- meters are not polarized in this manner with relation to "volts plus probe" and "volts minus probe." With the ohmmeter "plus" probe on the anode end of

a

diode, and the "minus" probe on the cathode end, the ohmmeter should read approximately 2000 ohms or less. With the

meter probes reversed, a reading of about 10,000 ohms or more should be obtained. If either of these conditions is not met, the diode should be replaced.

To check transistors, the ohmmeter should

be set to the 100- or 1,000-ohm scale. Transistors and diodes must be removed from the circuit before testing. If all conditions in the following table are met, the transistor may be con- sidered free of any major defect; if any of the following conditions are not met, the transistor should be replaced. See Notes to Circuit Diagram, Figure 30, Page 41, for tran- sistor terminal codes.

OHMMETER CONNECTIONS

"Plus" Lead "Minus" Lead

Collector Emitter Emitter Collector Collector Base Emitter Base Base Collector

Base Emitter

'Not a significant measurement.

OHMMETER READING

NPN PNP

Transistor Transistor High High High High High Low

*

Low

Low High Low

*

SERVICE ILLUSTRATIONS

Immediately following the parts list on the pages that follow are parts location drawings (Figures 19 to 29, Pages 33-39), and an overall Circuit Diagram (Figure 31, Pages 44-45). Once a board has been located through the parts location photo (Figure 17, Page

19), the components on that board may be located from the corresponding parts location drawing. Foil circuit paths are shown as shaded areas on the drawings. The overall Circuit Diagram (Figure 31, Pages 44-45) shows all board circuits and

chassis-

mounted parts.

OPTIONAL ACCESSORIES

The following optional accessories are specially de-

signed for use with the Shure

SR101 Series 2 Audio Con-

sole:

AlOlA Carrying Case AlOlB Panel Lamp Accessory SR110 Professional Monitor Mixer

GUARANTEE

This Shure product is guaranteed in normal use to be free from electrical and mechanical defects for a period of one year from date of purchase. Please retain proof of purchase date. This guarantee includes all parts and

labor. This guarantee is in lieu of any and all other guar- antees or warranties, express or implied, and there shall be no recovery for any consequential or incidental damages.

SHIPPING INSTRUCTIONS

Carefully repack the unit and return it prepaid to:

Shure Brothers Incorporated Attention: Service Department 1501 West Shure Drive Arlington Heights, Illinois 60004

If outside the United States, return the unit to your dealer or Authorized Shure Service Center for repair. The unit will be returned to you prepaid.

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SR101

Series 2 Audio Console

REPLACEMENT PARTS LIST

NOTE:

The commercial alternates shown in the following list are not necessarily equivalent parts, but are electrically and mechanically similar, and may be used if direct factory replacements are not immediately available. To maintain highest possible performance and reliability, Shure Factory Replacement Parts should be used.

CHASSIS-MOUNTED PARTS AND ASSEMBLIES

Reference

Designation

Replacement Kit

No.+

None

None Sprague

225P10491;

CDE DMF-1P1-10

None

be shipped in

RKC

quantities.

Bd. 1

Bd. 2A

Bd.

28

Bd. 3

Bd. 4

Bd.

5

Bd. 6

Bd.

7

Bd. 8

Bd. 9

Bd.

0

A1 -A9

A1 0 C17

C18

'Parts listed as

RKC

Kits

Replacement Kit Consists

Of:

~ty.

I

part NO.

1

Description

Commercial Alternate

-

should be ordered by that

-

kit

number.

90A2250

90A2247

90A2249

90A2464

90A2463

90A2465

90A1818

90A1827

90A2462

90A2210

90A2254

90A2423

90A2910

50KB104

86A641

Any orders received

Printed Circuit Assembly,

Preamplifier

Printed Circuit Assembly, Channel Equalizer, with HI and LO controls

Printed Circuit Assembly,

Reverb Equalizer, with

HI and LO controls

Printed Circuit Assembly,

Program Mix Amplifier, with REVERB INTENSITY controls

Printed Circuit Assembly,

Reverb Mix Amplifier, with REVERB INTENSITY controls

Printed Circuit Assembly,

Program Output

Printed Circuit Assembly,

Feedback Filters, with

switches

Printed Circuit Assembly, Reverb Spring Amplifier

Printed Circuit Assembly,

Monitor

Printed Circuit Assembly,

Power Supply

Printed Circuit Assembly,

Program Mute

Volume Control Assembly,

with Potentiometers

(Individual Channel and

MASTER)

Reverberation Assembly

Capacitor, Film,

.lpF, 1OOV

Capacitor, Dual Electrolytic,

1000

PF, 70V

for piece parts where

RKC

Kit number is shown will

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REPLACEMENT PARTS LIST FOR SR101 SERIES 2 AUDIO CONSOLE

Commercial Alternate

Littelfuse 31 3000; Bussman MDX3

5

x

20mm

Littelfuse 31 5.300

Littelfuse 31 5001

;

Bussman MVD Switchcraft D3F

Switchcraft 12A

Switchcraft 11

Switchcraft D3M

Switchcraft 128

Switchcraft

11 1

None

Amphenol 126-805

None

Stackpole

57-0181

;

Ferronics

21 -031 J API Instruments

361, A-Scale

Kone None

None

be shipped in RKC quantities

Reference

Designation

F1

F2

F3

J1-J8

J9-Jll

J12

J13-J14

J15-J16, J18

J17

J19

J20

J21

J 22

L1

-L5

M 1

MP1

MP2

M P3

M P4

M P5

MP6

*Parts listed as RKC Kits

Replacement

Kit No.'

-

RKC87

RKC68

-

should be ordered by that kit

Replacement Kit Consists Of:

Description

Fuse, Ac, 3AG-3/16A, 125V, Slo-Blo (SRI

01)

O.lAT for 220V operation,

0.2AT for 11 5V operation, Fuse, Ac, 250V (SRI 01-2E)

Fuse, Ac, Pigtail,

3/10A

Fuse, Dc, Pigtail, IA, 125V, Slo-Blo

Connector, Female, 3-pin Audio,

MICROPHONE LEVEL

lnput

Connector, Phone Jack, 2-Conductor,

Single Closed Circuit, AUX LEVEL

and

LlNK IN lnput

Connector, Phone Jack, 2-Conductor, Open Circuit,

LlNK OUT

Connector, Male, 3-Pin Audio, MIC LEVEL and

LlNE LEVEL Output

Connector, Phone Jack, 3-Conductor, Open Circuit,

LlNE LEVEL

and PHONES Output Connector, Phone Jack, 2-Conductor,

Open Circuit, MON

LlNE LEVEL

Output Connector, Female, SWITCHED

A.C., 500 WATTS MAX.

(SR101 only)

Connector, Female, Panel LAMP Accessory

Connector, Female,

1 I-Pin,

ACCESSORY AUX LEVEL Connector, 3-Pin, AC (MAINS)

POWER

(SRI 01 -2E)

Ferrite Bead Ring

Meter Assembly, VU

Knob Assembly, Grey, MONITOR Knob Assembly, Green, INPUT

ATTEN (Channels 1-6) Knob Assembly, Green, INPUT

ATTEN (Channels 7-8 only)

Switch Actuator,

AUX/MIC

(Channels 7-8 only)

Knob Assembly, Orange, HI FREQ EQ

Knob Assembly, Red, LO FREQ EQ

for piece parts where RKC Kit number is shown will

Qty.

-

1

-

number.

Part No.

8081 59

80C258

80D258

80A267

80A268

958246

95C446

958446

958247

9513446

958658

95A809

958590

95A655

95A689

80A250

95A615

90F2085 90A2085

90A1850

65A946A

90D2085

90C2085

Any orders received

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REPLACEMENT PARTS LIST FOR SR101 SERIES 2 AUDIO CONSOLE

Reference

Designation

MPIO MP11 MP12

Replacement Kit No.*

Qty.

-

Replacement Kit Consists

Of:

Part No.

9082085

90E2085

39A424

1

Nameplate, Write-on

Description

Knob Assembly, Blue,

REVERB INTENSITY

Knob Assembly, Black, TONE OSC

LEVEL and METER SENSITIVITY

90A1812

39A345

1

Nameplate, SHURE

Knob Assembly, Individual Channel

and MASTER Volume

95A466 / Lamp, Indicator, 6.3V

34A518

86A338

/

Transistor, Silicon, NPN

Dust Cover, Mylar, Black,

Volume Control

Potentiometer, Linear,

50k, Volume

Potentiometer, Modified Log, 50k, Volume

46A038

I

Potentiometer, 50k, with On-Off

Switch, TONE OSC LEVEL

46A037

I

Potentiometer, 50k, METER SENSITIVITY

46A036

1

Potentiometer, 50k, MONITOR

Switch, Rotary, INPUT

ATTEN (Channels 1-6)

Switch, Rotary, Dual, INPUT

ATTEN (Channels 7-8 only)

Switch Assembly, Beige, (8 modules plus frame), Push-button, DPDT, PROGRAM

Switch Assembly, Grey, (8 modules plus frame), Push- button, DPDT, MONITOR

Switch, Slide, DPDT, PRE LINKIPOST LINK and PHASE

Switch, Push-button, Blue,

DPDT, REVERB Switch, Push-button, Grey,

DPDT, PROGRAM MONITOR Switch, Toggle, SPST,

POWER ON-OFF

(SRlO1)

Switch, Toggle, SPST, POWER

ON-OFF

(SR101-2E)

Switch, Slide, DPDT, VOLTAGE

SELECTOR (SR101-2E)

Commercial Alternate

None

None None None

GE

47

RCA

2N3441

None

Cutler-Hammer 7501

K13

None

'Parts listed as RKC Kits should be ordered by that kit number. Any orders rece~ved for piece parts where RKC Kit number is shown will be shipped in RKC quantities.

**See also Assernblles A1-A9.

25

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REPLACEMENT PARTS LIST FOR SRlOl SERIES 2 AUDIO CONSOLE

Reference

Designation

Replacement Kit

No.'

PREAMPLIFIER (BOARD

1)

Qty.

-

--

-

Replacement Kit Consists

Of:

1

Part No.

Description

Transformer and Shield

Assembly, Mic lnput

Transformer, Line Level Output

Transformer, Headphone Monitor

Output

Transformer, Ac Power

(SR101) Transformer, Ac Power (SR101-2E) Cable and Plug Assembly,

Reverb Output Cable and Plug Assembly,

Reverb lnput Line Cord, Ac, Grounded,

9-Foot

("/.A"

Diameter) (SRlOl)

Line Cord, Ac, Grounded, %Foot, Single Connector (SR101-2E)

Fuseholder, Miniature, Panel-Mounting (SRI

01)

Fuseholder, Miniature, Panel- Mounting (SRlOl-2E)

Lampholder and Bracket

Assembly, Solder Terminal

Lampholder and Bracket

Assembly, Wire Terminal

SR101 Audio Console Mounting Template

Capacitor, Film, 0.1

PF, IOOV

Capacitor, Electrolytic,

22 PF, 35v

Capacitor, Electrolytic,

4.7 or

5

PF, 35V

86J628

I

Capacitor, Electrolytic,

50

PF, 35V

86L628

I

Capacitor, Electrolytic,

250

PF,

40V

86A410 / Silicon Rectifier, 10OV.

1/2A

Commercial Alternate

None

None None None

None

Belden 17408

None

Littelfuse 342014

None

CDE DMF-I PI-10

Sprague

502D- 226G050CE10; Mallory MTV-25CB35

Sprague 300-TE1303; CDE NLW-5-50

Sprague 30D-TE1307;

CDE NLW-50-50

None

1

Motorola 1 N4002

*Parts listed as RKC Kits should be ordered by that kit number. Any orders received for piece parts where

RKC

Kit number is shown

will

be shipped

in

RKC

quantities.

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REPLACEMENT PARTS LIST FOR SR101 SERIES 2 AUDIO CONSOLE

Reference

Designation

Ferrite Bead Ring

Replacement Kit No.*

Transistor, Silicon, Low Power, NPN

Transistor, Silicon, Low

Power, PNP

Replacement Kit Consists

Of:

Transistor, Silicon, NPN

EQUALIZER (BOARDS

2A

and

28)

C200, C201,

C205,

C208

Q200, Q201"

*,

Description

Qty.

Capacitor, Electrolytic,

4.7

or 5 PF, 35V

I

Part

No.

Transistor, Silicon, NPN

Potentiometer,

50k,

HI and

LO

FREQ EQ

Commercial

Alternate

Stackpole 57-01 80; Ferronics 21

-030J

Motorola 2N5210

Motorola or Fairchild

2N5087

Motorola 2N5088;

TI 2N3711

Sprague 30D-TE1303;

CDE NLW-5-50

Motorola

2N5088;

TI 2N3711

None

Capacitor Electrolytic,

4.7 or 5

PF, 35V

-

PROGRAM MIX AMPLIFIER (BOARD

3)

Capacitor Electrolytic,

22

PF,

35V

Diode, Silicon, Computer, 75V

Silicon Rectifier,

IOOV,

Y.A

Ferrite Bead Ring

-

C300-C302

Transistor, Silicon, NPN Transistor, Silicon, PNP

-

Transistor, Silicon, NPN Transistor, Silicon, PNP Potentiometer, Dual,

50k/50k,

REVERB INTENSITY

Sprague

30D-TE1303;

CDE NLW-5-50 Sprague

502D-

476G016CCl

C; Mallory MTV-35CB25

Motorola 1 N4002 Stackpole 57-0181

;

Ferronics 21 -031 J Motorola

2N5210

Motorola or Fairchild

2N5087

None

'Parts listed as RKC Kits should be ordered by that kit number.

Any

orders received for piece parts where RKC Kit number

IS

shown w~ll be shipped in RKC quantit~es

"'Not

included on Bd.

28.

27

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REPLACEMENT PARTS LIST FOR SR101 SERIES 2 AUDIO CONSOLE

--

~eferensel

Replacement

1

Desianation Kit No.'

Replacement Kit

Cons;sts

Of:

Commercial

I

Alternate

REVERB MIX AMPLIFIER (BOARD

4)

'Parts listed as RKC Kits should be ordered by that kit number. Any orders rece~ved for piece parts where RKC Kit number is shown will be shipped in RKC quantities.

28

Sprague 30D-TE1303; CDE NLW-5-50

Sprague 502D-226G050CE1 C; Mallory MTV-25CB35

CDE BR250-50

TI or GE IN4148

Stackpole 57-0181

;

Ferronics 21 -0351

J

Motorola 2N5210 Motorola or Fairchild

2N5087

TI TIS92

TI TIS93

None

C400-C402

C403

C404

D400, D401

L400

Q400

(2401

Q402

(2403

R400-R403

PROGRAM OUTPUT

86A630

868629

86L628

86A415

80A250

86A350 86A348

86A334 86A335 46A035

Capacitor, Electrolytic,

4.7 or 5

,uF, 35V

Capacitor Electrolytic, 22

,F, 35V

Capacitor Electrolytic, 250

,F, 40V

Diode, Silicon, Computer, 75V

Ferrite Bead Ring

Transistor, Silicon, NPN

Transistor, Silicon, PNP

Transistor, Silicon, NPN Transistor, Silicon, PNP Potentiometer, Dual,

50k/50k, REVERB INTENSITY

-

RKC89

-

RKC65

RKC66

-

(BOARD

5)

-

4

-

1

-

86L628

86F630

50KB104

86A630

86B629

86N628

86A629

Capacitor, Electrolytic, 250

,F, 40V

Capacitor, Electrolytic, 1

,uF, 25V

Capacitor, Film,

.l

,F,

1

OOV

Capacitor, Electrolytic,

4.7 or 5

,F, 35V

Capacitor, Electrolytic, 22

,F, 35V

Capacitor, Electrolytic, 100

p.F, 25V

Capacitor, Electrolytic, 47

,lF, 12V

CDE

BR250-50

Sprague 30D-TE1200; CDE NLW-1-25

Sprague 225P10491; CDE DMF-lP1-10

Sprague 30D-TE1303; CDE NLW-5-50

Sprague 502D-226G050CE1 C; Mallory MTV-25B35

Sprague 30D-TE1211;

Mallory MTA-100F35;

CDE NLW-100-25 Sprague

502D-476G016CCl C;

Mallory MTV-35CB25

-

C500

C505

C507

'2510, C511, C516, C517, C519

C514

C515

C518

-

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REPLACEMENT PARTS LIST FOR SR101 SERIES 2 AUDIO CONSOLE

Reference

Designation

Replacement Kit No.*

RKC50

FEEDBACK FILTERS (BOARD

61

Qty.

I

Part No.

1

Description

Replacement Kit Consists

Of:

Silicon Rectifier, IOOV, Y2A

Diode, Silicon, Computer, 75v

Transistor, Silicon, NPN

Commercial

Alternate

Transistor, Silicon, PNP

Transistor, Silicon, N-Channel, Field Effect

Transistor, Silicon, NPN

1 1 1

86A334 / Transistor, Silicon, NPN

I

1

86A335

1

Transistor. Silicon, PNP Potentiometer,

IOk,

VU Cal.

Motorola 1

N4002

TI or GE 1 N4148

Motorola 2N5210

Motorola or

Fairchild

2N5087

Motorola

2N5458

Motorola 2N5088;

TI 2N3711

REVERB SPRING AMPLIFIER (BOARD

71

TI TIS92 TI TIS93

None

Capacitor, Electrolytic, 22

,F, 35v

Transistor, Silicon, NPN

Switch Assembly (4 switch modules plus frame), Push-button, DPDT,

FEEDBACK FILTERS

Sprague 502D-226G050CE1 C; Mallory

MTV-25CB35

Motorola 2N5088;

TI 2N3711

None

Capacitor, Electrolytic,

250

,LF,

40V

Capacitor, Electrolytic,

50

,LF,

35V

Capacitor, Film,

.I

pF,

1

oov

Capacitor, Electrolytic,

4.7 or

5

pF, 35V

Silicon Rectifier,

1

OOV, Y2A

Silicon Rectifier, 50V,

1/2

A

CDE

BR230-5

Sprague 30D-TE1307; CDE NLW-50-50

Sprague 225P10491; CDE DMF-1P1-10

Sprague 30D-TE1303; CDE NLW-5-50

Motorola

1

N4002

Motorola 1

N4001

'Parts listed as

RKC

Kits should be ordered by that kit number.

Any

orders rece~ved for piece parts where RKC Kit number is shown will be shipped

in

RKC quantities.

29

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REPLACEMENT PARTS LIST FOR SR101 SERIES 2 AUDIO CONSOLE

Alternate

Reference

Designation

Q700

/

RKC12

I

1

86A336 I~ransistor, Silicon, NPN

Transistor, Silicon, Power, NPN

Replacement Kit No.*

Motorola MPS-U02; GE

D40D4

Replacement Kit Consists Of:

~tv.

I

Part No.

I

Descri~tion

Transistor, Silicon,

Power, PNP

Motorola MPS-U52;

GE

D41D4

Transistor, Silicon, NPN

Motorola

2N5088;

TI 2N3711

L

Capacitor, Electrolytic,

4.7 or 5

pF, 35V

MONITOR (BOARD

8)

Sprague 30D-TE1303: CDE NLW-5-50

Capacitor, Electrolytic, 100

pF, 25V

-

C800, C803, C805, C807, C808

Sprague 30D-TE1211;

Mallory

MTA-100F35; CDE NLW-100-25

-

Silicon Rectifier, 100V, %A

Motorola 1

N4002

Diode, Silicon, Computer,

75v Transistor, Silicon, NPN

Transistor, Silicon, PNP Motorola or Fairchild

2N5087

Transistor, Silicon, NPN Transistor, Silicon, PNP Transistor, Silicon, NPN

Motorola

2N5088;

TI 2N3711

Capacitor, Electrolytic, 250

pF, 60V

POWER SUPPLY (BOARD

9)

None C900

Capacitor, Electrolytic, 250

pF, 40V

-

CDE BR250-50

Capacitor, Film,

.I

pF,

1 OOV

Sprague

225P10491;

CDE DMF-1P1-10

Silicon Rectifier, 1

OOV,

'hA

Motorola

1

N4002

Silicon Zener Diode, 32V,

5%

Motorola

1

N4752B

Transistor, Silicon, Power, NPN

RCA 40347

Resistor, Fixed, 2.0

ohms,

1

W,

5%

None

'Parts listed as RKC Kits should be ordered by that kit number.

Any

orders recelved for piece parts where RKC Kit number is shown will be shipped in RKC quantities.

30

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REPLACEMENT PARTS LIST FOR SR101 SERIES 2 AUDIO CONSOLE

Reference

Designation

'Parts listed as RKC Kits should be ordered by that kit number.

Any

orders rece~ved for piece parts where RKC

Kit

number is shown will be shipped In RKC quantities

PROGRAM

MUTE

(BOARD

0)

Replacement Kit No.*

C90

C91

D90-D92

Q90

Q91 RLY9O

Replacement Kit Consists Of:

Qty.

I

Part

No.

I

Description

Capacitor, Film, .I

pF,

1

OOV

Capacitor, Electrolytic, 1000

,uF,

25V

Silicon Rectifier, 100V,

1/2A

Transistor, Silicon, NPN

Relay, Reed, SPST,

24 Vdc

Commercial Alternate

Sprague

225P10491;

CDE DMF-1P1-10

Sprague TVA-1211

Motorola

1

N4002

Motorola 2N5088;

TI 2N3711

TI TIS97

None

-

RKC21

RKC9

RKC12

-

4

1

50KC104

86A632

86A404

86A349

86A336 55A93

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2247-21224631587-4

FIGURE 20. BOARD 2A: CHANNEL EQUALIZER

2249-212248-31588-4

FIGURE 21. BOARD 28: REVERB EQUALIZER

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FIGURE 22. BOARD 3: PROGRAM MIX AMPLIFIER

2464-1 12458-1 1647-1

FIGURE 23. BOARD

4:

REVERB MIX AMPLIFIER

2463-1 12460-1 1646-1

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1818-3/1817-1/482-3

FIGURE

25.

BOARD

6:

FEEDBACK FILTERS

1827-3/488-3

FIGURE

26.

BOARD

7:

REVERB SPRING AMPLIFIER

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2462-1 12461

-1

1644-1

FIGURE

27.

BOARD 8: MONITOR

2210-9/2251-3/591-4

FIGURE 28. BOARD 9: POWER SUPPLY

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2254-3/592-4

FIGURE 29. BOARD

0:

PROGRAM

MUTE

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SR101

Series 2 Audio Console

NOTES TO

CIRCUIT DIAGRAM

GENERAL

distorted, low or not present, apply an input signal as de-

Shure part numbers are not shown in the Parts List

scribed under

Ac

Voltage Measurements below, and deter-

accompanying the Circuit Diagram (Figure 31, Page 44)

mine that the input and output voltage to each board

if parts are readily available through local electronics parts

assembly is correct. If an incorrect ac voltage is found

suppliers. In these instances, the Circuit Diagram shows

at any board output, perform

Dc

Voltage Measurements

only the reference designation and value of the standard

on that board as described below to isolate the problem

parts. area.

All capacitor values are shown in microfarads unless

otherwise designated. All non-electrolytic capacitors are

100 working volts dc or more unless otherwise specified. Electrolytic capacitors are shown in microfarads

x

volts.

All resistor values are shown in ohms (k

=

1000). Re-

sistors are

10% tolerance unless otherwise specified. Re-

sistors are

%-watt unless otherwise specified.

Transistor lead codes are as shown in Figure 30. Ac-

ceptable replacements are as shown in the Parts List.

The following ground symbols denote:

Chassis Ground Circuit Ground

lfi&

-

Printed Circuit Board Ground

6

AC VOLTAGE MEASUREMENTS

The numbers within rectangular symbols

0

on the circuit diagram denote the ac voltages at that point under the following test conditions:

1. Voltages measured with respect to chassis unless otherwise indicated.

2.

Line voltage: 120V, 60 Hz (SRIO1)

120V or 240V,

60

Hz

(SRI 01

-2E)

3. Test signal of 1 mV, 1

kHz

applied across pins 2 and'3

of connector J1.

4. Ac voltage measurements may vary 230% from values shown.

5.

Measurements made with ac VTVM of 1 meaohm or

-

greater input impedance.

TROUBLESHOOTING

6.

600-ohm load across LINE LEVEL Output Connector

A general troubleshooting process is as follows: If the J14 (pins

2

and 3).

Console is completely "dead," check the ac power source,

7.

FEEDBACK FILTERS Switches released (out).

fuses, and power supply output (30V between pins B and

8.

All Equalization Controls in 0 (flat) setting.

G, Board 9). If the indicator lamps are on but the output is

9. All Volume Controls set to

maximum (14).

~lIWR~IN

SOURCE

FIGURE

30.

TRANSISTOR LEAD CODES

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10. Reverb circuit measurements made with REVERB IN- TENSITY Controls full clockwise, and Master Reverb

Switch depressed (on). Note that reverb spring and following stages vary with frequency; measurements given are typical only.

11. Monitor circuit measurements made with all MON-

ITOR Switches depressed (on), and PROGRAM MON- ITOR Switch released (off).

12. Tone oscillator circuit measurements on Program Out-

put (Bd.

5)

made with TONE OSC LEVEL Switch on.

DC VOLTAGE MEASUREMENTS

The numbers within elliptical symbols

o

on the

circuit diagram denote the dc voltages at that point under

the following test conditions:

1.

Voltages measured with respect to chassis unless otherwise indicated.

2. Line voltage:

120V, 60

Hz

(SR101)

120V or 240V, 60

Hz

(SR101-2E)

3.

No input signal applied.

4. Dc voltage measurements may vary

*20% from

values shown.

5.

Measurements msde with VTVM of 11 megohms or greater input impedance.

6.

Tone oscillator circuit measurements on Program Out-

put

(Bd.

5)

made with TONE OSC LEVEL Switch on.

RESISTANCE MEASUREMENTS

With the ac line cord disconnected from the ac source and the POWER ON-OFF Switch in the OFF position, the following ohmmeter measurements may be made:

1. Reverberation Assembly A10 output coil: approxi- mately 180 ohms; input: approximately 10 ohms.

2. Transformers may be checked for continuity of each winding.

3.

To test transistors and diodes, see Page 22.

S29

POWER

TI1

BLK

180-250

V

.I

AT

90- 132 V .2

AT

SLO

BLO

11

5

F2

3/10

A

SLO BLO

i

BLKfGRN

-

FIGURE

31.

SRlO1-2E POWER SUPPLY

81293-1

1-1

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FIGURE

32.

SR101 SERIES 2 AUDIO CONSOLE CIRCUIT DIAGRAM

ISSUE

1 2

REFERENCE NUMBER

DESCRIPTION

94A1293-11-1 94A1293-11-2

--

ADDED R537

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ISSUE REFERENCE NUMBER

DESCRIPTION

1

94A1293-11-1

2 94A1293-11-2 ADDED

R537

(TONE

OSCILLATOR)

LINE

LEVEL

(600

1L)

FIGURE 32. SR101 SERLES 2 AUDIO CONSOLE CIRCUIT DIAGRAM

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SR101 Series 2 Audio Console

CONDENSED OPERATING

INSTRUCTIONS

1. Set all switches and controls to OFF or 0.

2. Connect PROGRAM OUTPUT (LINE or MIC LEVEL) to power amplifier, broadcast line feed, etc. Connect speakers to power amplifier. Connect headphones to PHONES or

MONITOR/LINE LEVEL jack.

3. Connect sources (microphones, tape recorders, etc.) to INPUT Connectors. Set Channel 7 or 8

MIC/AUX

Switches as necessary.

4. Connect external signal-processing equipment (com-

pressor, equalizer, etc.) to LlNK Jacks. (To connect

two Consoles, connect LlNK OUT Jacks together.)

5. Connect ac line cord to ac source.

6. Turn on POWER ON-OFF Switch and allow one to two

minutes

warmup time.

7.

Depress PROGRAM Switches for input channels to be

used.

8. Set INPUT

ATTEN Switches to preliminary position for

type of material to be used

(0 for speech, -10 for in-

strumental music, -20 or -30 for

"hard" rock music;

Channel 7 or 8 AUX INPUT: -20 or -30).

9. Set MASTER Volume Control to 7, and METER SENSI- TIVITY Control to CAL. With source input, raise Chan-

nel Volume Control for desired sound level. Readjust INPUT

ATTEN Switch if necessary.

10. Adjust HI and LO FREQuency

EQualization Controls as

necessary.

11. Depress REVERB Switch. Adjust REVERB INTENSITY, and HI and LO REVERB

FREQuency EQualization Con-

trols as necessary.

12. Depress MONITOR Switches to monitor individual in-

put channels. Raise MONITOR Control to comfortable listening level. Depress PROGRAM MONITOR for total

program monitoring (overrides MONITOR Switches).

SR101 Series 2 Audio Console

ARCHITECTS' AND ENGINEERS' SPECIFICATIONS*

The Audio Console shall be a self-contained 90- to 132-

The Audio Console shall have a voltage gain of 73

t3

volt, 50 to 60 Hz, line-operated, all-silicon transistor mixing

dB and a maximum microphone input sensitivity of 0.4 milli-

amplifier with preamplifiers and controls to mix eight in-

volts for a

+4 dBm program output.

dependent low-impedance microphone input

signals and to

The input channel input clipping level, with a zero at-

provide two independent outputs: Program and monitor.

tenuator setting, shall be 17.5 millivolts minimum with the

Each input

channel in the Audio Console shall have

linear-motion LEVEL control at maximum and shall increase

independent HIGH-FREQUENCY and LOW-FREQUENCY to

315 millivolts minimum with the linear-motion LEVEL

EQUALIZATION controls, four-position zero to 30 dB AT-

control near minimum.

TENUATOR Switch, linear-motion LEVEL control, REVERB

The

Audio

console

shall be enclosed in a metal housing

INTENSITY control and independent output assignment

designed for rack-mounting in standard 19-inch (483 mm)

switches for the PROGRAM and MONITOR buses. The 7th

Audio Equipment Racks, desk-top mounting, or mounting in

and 8th input channels shall each have two additional input

an

accessory

vinyl-covered wood portable case.

connectors (AUX. LEVEL) and an additional switch to se-

The

Audio Console dimensions

shall

be

311

mm

(121,,4

lect the desired input connector.

in.) in height, 483 mm (19 in.) in width, 143 mm

(5%

in.)

The

OUTPUT

circuit

have

a

600-ohm

in depth below the rack-mounting surface and 22.2 mm

balanced

line level Output

rated

at

+I2

dBm

at

less

than

(,/8

in,) above the rack-mounting surface. The weight shall

1% distortion with a minimum clipping level of +I9 dBm

be not

more

than

kg

(23 Ib.),

and a low-impedance, balanced, microphone-level output

at

a

level

50

dB

below

the

LEVEL

output,

A PHAS~

The Audio Console shall have a built-in tone oscillator

switch shall be provided to reverse the phase of both the

with a LEVEL

control1

and

an

lamp

LlNE and MICROPHONE LEVEL outputs.

on the front panel. A POWER

ON/OFF toggle switch shall

The program channel shall have a linear motion MASTER

be

located

On

the

panel. A switched AC recep-

LEVEL

control,

four

switchable notch-type

FEEDBA~~

tacle rated for 500 watts maximum load shall be provided.

FILTERS, a built-in reverberation system with high-fre-

The MICROPHONE INPUT connectors shall be 3-pin fe-

quency equalization and a REVERB "IN/OUTU Switch, and

male professional audio type. The AUX. INPUT ~Onne~tOr~

a 76.2 mm (3 in.) illuminated VU meter with a zero to

for channels 7 and 8, the LlNK Jacks, and the MONITOR

22 dB variable SENSITIVITY control.

LINE LEVEL OUTPUT Jack shall be two-circuit %-inch

A

pair of LlNK Jacks shall be provided in the program

phone jacks. The PROGRAM LINE LEVEL OUTPUT con-

circuit to allow connection to external equipment such as

nectors

shall be a 3-pin male professional audio-t~~e. The

compressor, limiter, equalizer, additional console, etc.

headphone (PHONES) connector shall be a three-circuit

1/4-

The monitor circuit shall have a

MONITOR

LEVEL

con-

inch phone jack to be used with either mono Or Stereo

trol, a

PROGRAM

MONITOR =IN/OUT~

Switch that electri-

phones with an impedance of 4 ohms or higher. An 11-pin

cally overrides the individual channel MONITOR switches,

AUX

LEVEL

Output shall provide

a 600-ohm unbalanced LlNE LEVEL output, and a trans- former-coupled headphone (PHONES) output.

Any Audio Console not meeting all of the above

specifi-

*AII specifications apply to

SRIOI-2~

except: operating voltage is

90-132

cations shall be deemed unacceptable under this specifica-

or

180-250

volts; no switched AC receptacle is provided.

tion. The Audio Console shall be a Shure Model SR101.

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Shure SR101 Service Manual

Specifications and Main Features

Frequently Asked Questions

User Manual