Lectrosonics SME, SMQE Users Manual

SMa Series

Super Miniature Belt-Pack Transmitters

With Digital Hybrid Wireless™ Technology

INSTRUCTION MANUAL

SMa Single battery, 100 mW
SMDa Dual battery, 100 mW
SMQa Dual battery, 250 mW
RM Remote Control

for SM Transmitters

Fill in for your records:

Serial Number:

Purchase Date:

Digital Hybrid Wireless
US Patent 7,225,135

Rio Rancho, NM, USA
www.lectrosonics.com

SMa Series

2

LECTROSONICS, INC.

Thank you for selecting a Lectrosonics SM Series
ultra-miniature transmitter. The unique design provides
several distinct features for professional applications:

• OutstandingRFoperatingrange

• Superbaudioquality

• Ultra-lightweight,corrosionresistanthousing

• Waterresistantsealsforuseindampenvironments

• Programmablecompatibilitymodesforusewitha

wide variety of different receivers

The Digital Hybrid WirelessTM design (US Patent
7,225,135) combines 24-bit digital audio with analog
FM resulting in a system that has the same operating
range as analog systems, the same spectral efficiency
as analog systems, the same long battery life as analog
systems, plus the excellent audio fidelity typical of pure
digital systems.

The SM Series transmitters use a standard Lectroson­ics 5-pin type input jack for use with electret lavaliere
mics, dynamic mics, or line level signals. A water
resistant control panel with LCD, membrane switches
and multi-color LEDs make input gain adjustments and
frequency and compatibility mode selection quick and
accurate, without having to view the receiver. The bat­tery compartment accepts AA lithium or rechargeable
batteries. The SM is machined from a solid aluminum
block to provide an extremely lightweight and rugged
package. A special non-corrosive finish resists salt wa­ter exposure and perspiration in extreme environments.

The DSP-based design works with all Digital Hybrid
recievers, and is backward compatible for use with
Lectrosonics 200 and 100 Series and IFB receivers and
some other brands of analog wireless receivers. Com­panion receivers are covered in separate manuals.

Super-Minature Belt Pack Transmitters

Table of Contents

General Technical Description .............................................4

Controls and Functions ........................................................ 6

LCD Screen .........................................................................6

Power LED ...........................................................................6

Audio Input Jack ................................................................... 6

Battery Compartment and Thumb Screw ............................. 6

Modulation LEDs .................................................................. 6

Audio Button ........................................................................6

Freq Button .......................................................................... 6

Up/Down Arrows ..................................................................6

Antenna ................................................................................ 6

Setup with the LCD ................................................................ 7

Audio Screen .......................................................................7

Frequency Screen ................................................................ 7

Compatibility Mode Screen ..................................................7

Turning the Power On ..........................................................7

Turning the Power Off ..........................................................7

Entering the Standby Mode .................................................7

Lock/Unlock Screen .............................................................7

Battery Installation ................................................................ 8

Remote Control Operation ...................................................8

Operating Instructions ..........................................................9

Power Up and Boot Sequence ............................................. 9

Power Down ......................................................................... 9

Standby Mode ...................................................................... 9

Selecting the Compatibility Mode ......................................... 9

Setting Transmitter Operating Frequency ............................. 10

Adjusting the Low Frequency Roll-off .................................. 10

Attaching a Microphone and Adjusting Gain ........................ 10

Locking or Unlocking the Control Panel ...............................

Attaching and Removing the Microphone ............................

Locking or Unlocking the Control Panel ............................... 11

Attaching and Removing the Microphone ............................ 11

5-Pin Input Jack Wiring .........................................................12

Installing the Connector: ...................................................... 12

Cable Termination for Non-Lectrosonics Microphones ..... 13

Microphone RF Bypassing ................................................... 14

Line Level Signals ................................................................ 14

Wiring Hookups for Different Sources ................................ 15

Works with Servo Bias Inputs Only: ..................................... 15

Works with Servo Bias Inputs and Earlier Transmitters: ....... 15

RM Remote Control Operating Instructions .......................16

RM Front Panel Controls ...................................................... 16

Powering the RM on and off ................................................. 16

Principles of Operation ......................................................... 16

RM Pages ............................................................................ 16

Operating Notes ................................................................... 17

RM Quick Reference ............................................................ 17

Troubleshooting ..................................................................... 18

RM Troubleshooting ............................................................. 19

Specifications and Features ................................................. 21

Service and Repair ................................................................ 22

Returning Units for Repair ...................................................22

Rio Rancho, NM

3

SMa Series

General Technical Description

Wideband Design

The SM transmitters use ±75 kHz wide deviation for an
excellent signal to noise ratio and wide dynamic range.
The DSP controlled input limiter features a wide range
dual envelope design which cleanly limits input signal
peaks over 30 dB above full modulation. switching power
supplies to provide constant voltages to the transmitter
circuits from the beginning (1.5 Volts) to the end (0.85
Volts) of battery life, and an ultra low noise input amplifier
for quiet operation.

Servo Input

The SM input is a radically different input system com­pared to previous Lectrosonics transmitter microphone
inputs. It is so superior that this input system will eventu­ally be utilized by all Lectrosonics UHF transmitters. The
improvements are audible and make the transmitters
easier to use and much harder to overload. It is no
longer necessary on some mics to introduce pads to
prevent overload of the input stage, divide the bias
voltage down for some low voltage mics, or reduce the
limiter range at minimum gain settings.

Digital Hybrid Wireless™ Technology*

All wireless links suffer from channel noise to some de­gree, and all wireless microphone systems seek to mini­mize the impact of that noise on the desired signal. Con­ventional analog systems use compandors for enhanced
dynamic range, at the cost of subtle artifacts (known as
“pumping” and “breathing”). Wholly digital systems defeat
the noise by sending the audio information in digital form,
at the cost of some combination of power, bandwidth and
resistance to interference.US Patent 7,225,135

Lectrosonics Digital Hybrid Wireless™ systems over­come channel noise in a dramatically new way, digitally
encoding the audio in the transmitter and decoding it
in the receiver, yet still sending the encoded informa­tion via an analog FM wireless link. This proprietary
algorithm is not a digital implementation of an analog
compandor but a technique that can be accomplished
only in the digital domain, even though the inputs and
outputs are analog.

Channel noise still impacts received signal quality and
will eventually overwhelm a receiver. Digital Hybrid
Wireless™ simply encodes the signal to use a noisy
channel as efficiently and robustly as possible, yield­ing audio performance that rivals that of wholly digital
systems, without the power and bandwidth problems
inherent in digital transmission.

Because it uses an analog FM link, Digital Hybrid Wire­less™ enjoys all the benefits of conventional FM wire­less systems, such as excellent range, efficient use of
RF spectrum, and resistance to interference. However,
unlike conventional FM systems, it does away with the
analog compandor and its artifacts.

No Pre-Emphasis/De-Emphasis

The Digital Hybrid Wireless™ design results in a signal-to­noise ratio high enough to preclude the need for conven­tional pre-emphasis (HF boost) in the transmitter and de­emphasis (HF roll off) in the receiver. This eliminates the
potential for extreme distortion on signals with abundant
high-frequency information.

4

LECTROSONICS, INC.

Super-Minature Belt Pack Transmitters

Low Frequency Roll-Off

The low frequency roll-off can be set for a 3 dB down
point at 35, 50, 70, 100, 120 and 150 Hz to control sub­sonic and very low frequency audio content in the au­dio. The actual roll-off frequency will vary slightly depend­ing upon the low frequency response of the microphone.

Excessive low frequency content can drive the transmit­ter into limiting, or in the case of high level sound sys­tems, can even cause damage to loudspeaker systems.
The roll-off is normally adjusted by ear while listening
as the system is operating.

Input Limiter

A DSP-controlled analog audio limiter is employed before
the analog-to-digital (A-D) converter. The limiter has a range
of more than 30 dB for excellent overload protection. A dual
release envelope makes the limiter acoustically transparent
while maintaining low distortion. It can be thought of as two
limiters in series, a fast attack and release limiter followed by
a slow attack and release limiter. The limiter recovers quickly
from brief transients, with no audible side effects, and also
recovers slowly from sustained high levels, to keep audio
distortion low and while preserving short term dynamics.

Signal Encoding and Pilot Tone

In addition to controlling the limiter, the DSP also en­codes the digitized audio from the A-D converter and
adds an ultrasonic pilot tone to control the receiver’s
squelch. A pilot tone squelch system provides a reliable
method of keeping a receiver output muted (squelched)
even in the presence of significant interference. When
the system is operating in the hybrid mode, a differ­ent pilot tone frequency is generated for each carrier
frequency to prevent inadvertent squelch problems and
simplify multi-channel coordination.

Microprocessor, PLL and VCO Circuits

A microprocessor monitors user command inputs from
the control panel buttons and numerous other internal
signals. It works intimately with the DSP to ensure the
audio is encoded according to the selected Compatibil­ity Mode and that the correct pilot tone is added to the
encoded signal.

Control Panel

The control panel includes four membrane switches and
an LCD screen to adjust the operational settings. Multi­color LEDs are used to indicate audio signal levels for
accurate gain adjustment and for battery status.

Wide-Band Deviation

±75 kHz deviation improves the signal to noise ratio and
audio dynamic range of a wireless system dramatically,
compared to other designs that use ±30 kHz to 40 kHz
deviation. Wide deviation combined with a high powered
transmitters makes a significant improvement in signal
to noise ratio and operating range.

Battery Options and Operating Time

Switching power supplies convert regulated battery
voltages to operate various circuit stages with maxi­mum efficiency. With the variety of alkaline, lithium and
rechargeable NiMH batteries available today in the AA
format, there are many choices to maximize operating
time or minimize cost as needed for any application.

Frequency Blocks

Lectrosonics established a “block” numbering system
years ago to organize the range of frequencies avail­able from the low 500 MHz band to the upper 700
MHz band. Each block includes 256 frequencies in 100
kHz increments. The block number is part of a simple
formula to derive the frequency. The block number is
multiplied by 25.6 to produce the lowest frequency in
the block. For example, block 27 x 25.6 = 691.200.

Circulator/Isolator

The RF output circuit includes a one way circulator/isolator
using a magnetically polarized ferrite. This device greatly
reduces the RF intermodulation produced when multiple
transmitters are used in close proximity to one another
(several feet apart). The isolator also provides additional
RF output stage protection.

Compatibility Modes

The SM transmitters were designed to operate with
Lectrosonics Digital Hybrid receivers and will yield the
best performance when doing so. However, due to the
flexibility of digital signal processing, the transmitters
can also operate in various compatibility modes for use
with Lectrosonics 200 Series, Lectrosonics 100 Series,
IFB and certain non-Lectrosonics receivers. Contact
the Lectrosonics sales department for a complete list of
compatible non-Lectrosonics receivers.

Rio Rancho, NM

5

SMa Series

Controls and Functions

Modulation

LEDs

Battery

Compartment

Cover Plate

Battery
Compartment
Thumb Screw

PWR LED

AUDIO Button

LCD Screen

The LCD is a numeric-type Liquid Crystal Display with
several screens that allow settings to be made with the
AUDIO, FREQ, UP and DOWN to configure the trans­mitter. Turn on and turn off countdowns appear in the
LCD allowing the transmitter to be turned on for adjust­ments without the output stage enabled, and to prevent
accidental turn off.

Power LED

The PWR LED glows green when the battery is good.
The color changes to red when there is about 30
minutes of operation left with the recommended lithium
battery. An alkaline battery will have about 20 minutes
of life left. When the LED begins to blink red, there are
only a few minutes of life.

Note: A NiMH battery will give little or no warning
when it is depleted. If you wish to use NiMH
batteries in the SM, we recommend trying fully
charged batteries in the unit, noting the length of
time that the batteries will run the unit and then
using the battery timer feature available on most
Digital Hybrid receivers.

A weak battery will sometimes cause the PWR LED to
glow green immediately after being put in the unit, but
will soon discharge to the point where the LED will go
red or shut off completely. When the SM is in SLEEP
mode, the LED blinks green every few seconds (See
Sleep Mode, page 8).

Audio Input Jack

The Servo Bias input on the SM Series transmitters
accommodates virtually every lavaliere, handheld or
shotgun microphone available, plus line level signals.

Battery Compartment and Thumb Screw

The large knurled thumbscrew is used to release or
secure the Battery Compartment Cover Plate, allowing
access to the battery.

LCD

UP Arrow

Audio

Input Jack

DOWN Arrow

FREQ Button

Modulation LEDs

The Modulation LEDs provide a visual indication of the
input audio signal level from the microphone. These two
bicolor LEDs can glow either red or green to indicate
modulation levels. 0 dB in the table below indicates full
modulation.

Signal Level -20 LED -10 LED

Less than -20 dB Off Off

-20 dB to -10 dB Green Off

-10 dB to +0 dB Green Green

+0 dB to +10 dB Red Green

Greater than +10 db Red Red

Audio Button

The AUDIO button is used to display the audio level
setting and low frequency roll-off. The UP and DOWN
arrows adjust the values.

The AUDIO button is also used with the FREQ button to
enter standby mode and to power the transmitter on or off.

Freq Button

The FREQ Button displays the selected operating
frequency and also toggles the LCD between displaying
the actual operating frequency in MHz and a two-digit
hexadecimal number that corresponds to the equivalent
Lectrosonics Frequency Switch Setting.

The FREQ button is also used with the AUDIO button to
enter standby mode and to power the transmitter on or off.

Up/Down Arrows

The Up and Down arrow buttons are used to select the
operating frequency, adjust the audio level, or set the
Compatibility Mode.

Pressing both arrows simultaneously enters the lock
countdown. Holding the two arrow buttons until the
countdown completes locks the control panel buttons so
they can only be used to display current settings. “Loc”
is displayed to indicate the controls are locked.

Once locked, the buttons can be unlocked only by re­moving the battery, or via the RM remote control (if this
function was enabled in the transmitter setup).

Antenna

The flexible antenna is built with woven, galvanized
steel mesh cable, cut to the 1/4 wavelength of the
center of the frequency block of the transmitter. The
antenna is extremely rugged and moisture resistant.

6

LECTROSONICS, INC.

Super-Minature Belt Pack Transmitters

Setup with the LCD

Six screens are used to set up and operate the SM.
These screens are used to set the operating frequency,
adjust the audio input level, select the Compatibility
Mode or lock the control panel and power down the
transmitter.

Audio Screen

The Audio screen is used to
adjust input gain from 0 to +44
dB, and the low frequency roll­off from 35 to 150 Hz. Repeat­edly pressing the AUDIO button
toggles back and forth between the two displays. Press
and hold the AUDIO button and use the Up and Down
arrows to make adjustments.

Frequency Screen

The Frequency Screen dis­plays the operating frequency
in MHz or as a two-digit
hexadecimal number that cor­responds to the equivalent
Lectrosonics Frequency Switch
Setting. Pressing the FREQ button toggles between the
two displays.

Compatibility Mode
Screen

Holding down the Up arrow button while powering up
the SM opens the Compatibility Mode screen. By using
the Up or Down arrow buttons, the user can select one
of six compatibility modes:

Note: RF transmission is prevented while selecting
Compatibility Modes. Also, the SM exits the
Compatibility Mode screen to Standby Mode.

• 400-Thisisthefactorydefaultsettingandworkswith

all Lectrosonics 400 Series Digital Hybrid Wireless™
receivers, including the Venue. This mode offers the
best audio quality.

• 200-ThismodeworkswithallLectrosonics200

Series compatible receivers.

• 100-ThismodeworkswithallLectrosonics100

Series compatible receivers.

• 3-(Mode3)Thismodeworkswithanumberof

non-Lectrosonics analog receivers. Contact the
company for a list of compatible receivers.

• IFB-ThismodeworkswithallLectrosonicsIFB

compatible receivers.

• 6-(Mode6)Thismodeworkswithanumberof

non-Lectrosonics analog receivers. Contact the
company for a list of compatible receivers.

While in the compatibility mode screen, pressing either
the AUDIO or FREQ button exits to standby mode. To
power off from the compatibility mode screen, press
and hold AUDIO and FREQ together.

Turning the Power On

With the power turned off,
simultaneously pressing and
holding the AUDIO and FREQ
buttons displays a timer with
numerals on the right. The numerals count up from one
and the boot sequence begins when the count reaches
three. “LECtro” is displayed as the boot sequence be­gins. If either button is release prior to the screen reach­ing numeral three, the unit will enter the Standby Mode
with no RF output (see Standby Mode below).

Initial Power On

Timer Screen

Turning the Power Off

With the unit turned on, simul­taneously holding the AUDIO
and FREQ buttons starts a
countdown timer with numerals
on the right. The screen counts down from three and
the transmitter turns off when it reaches zero. Releas­ing either button prior to the Power Off Timer screen
indicating zero returns the unit to normal operation and
displays the previous screen.

Initial Power Off

imer Screen

Entering the
Standby Mode

With the power turned off,
pressing the AUDIO and FREQ
buttons for about one second places the unit in Standby
Mode. In this mode the RF output is turned off so all
setup adjustments can be made without interfering
with other systems operating in the same location. The
screen displays “rf OFF” to remind the user that the unit
is not transmitting.

Holding the FREQ button in Standby Mode displays the
current operating frequency of the transmitter. The op­erating frequency can be changed by holding the FREQ
button and pressing either the Up or Down button.
Release the FREQ button, then press and hold it again
to toggle the display between frequency in MHz and the
hex code corresponding to the equivalent Lectrosonics
Frequency Switch Setting.

Holding the AUDIO button in Standby Mode displays
the current audio input level setting. This level can be
changed by holding the AUDIO button and pressing
either the Up or Down button.

Quickly pressing both the FREQ and AUDIO buttons
simultaneiously when the unit is in Standby Mode pow­ers off the transmitter.

Standby Screen

Lock/Unlock Screen

Simultaneously pressing and
holding both the Up and Down
arrow buttons during normal
operation starts the Lock timer.
The timer starts at three and
counts down to zero. When the timer reaches zero, the
transmitter’s controls are locked.

Rio Rancho, NM

7

SMa Series

The LCD will display the locked condition as long as the
arrow buttons are held, then revert back to the previous
screen when either button is released.

With the controls locked, the AUDIO and FREQ buttons
can still be used to display current settings. Any attempt
to change a setting by pressing either the Up or Down
arrow button will result in an on-screen “Loc” reminder
that the controls are locked. Remove the batteries to
unlock the control panel.

Important: Once the transmitter is locked, it
cannot be unlocked or powered off using the
buttons. The only ways to unlock a locked
transmitter are to remove the battery or unlock it
via the RM remote control.

Remote Control
Operation

SM Series transmitters may
be configured to respond to
signals from the RM remote
control unit or to ignore them.
This setting is accessed by
holding down the Down arrow button while powering the
transmitter on. Use the arrow keys to toggle between
“rc on” (remote control on) and “rc oFF” (remote control
off). The default setting is “rc on.”

If a remote control signal is detected but the transmitter
is set to “rc oFF”, the message “rc oFF” will be dis­played briefly on the transmitter’s LCD, to confirm that a
valid signal was received, but that the transmitter is not
configured to respond to it.

Functions available from the remote control are:

• AudioLevel

• Frequency

• Lock/UnlockButtons

• Sleep/Wake(powersavingmode)

In sleep mode, the SM uses 20% of the normal amount
of current. For example, in sleep mode it will drain the
battery as much in five hours as it would do in one hour
of normal operation. Sleep mode can only be invoked
with the remote control, and can only be revoked with the
remote control or by removing the battery. When in sleep
mode, the PWR LED blinks green every few seconds to
indicate that the SM is asleep and not turned off.

Remote Control Screens

Battery Installation

The SM transmitter is powered by a single standard
AA 1.5 volt battery, while the SMD and SMQ use two
AA batteries. We recommend using lithium batteries for
longest life. In the SM, lithium batteries provide over 4.5
hours of operation at room temperature.

Note: Standard zinc-carbon batteries marked
“heavy-duty” or “long-lasting” are not adequate.

The battery status circuitry is designed for the voltage
drop over the life of lithium batteries.

To install new batteries:

1. Turn the Battery Cover Plate Thumbscrew coun­terclockwise, open the battery compartment and
remove any old batteries.

2. Insert the new battery (or batteries) into the hous­ing. The positive (+) battery terminal goes into the
transmitter first.

3. Replace the Battery Cover Plate and tighten the
Battery Cover Plate Thumbscrew.

Kevlar covered vent

Battery

Compartment

Battery

Cover Plate

Thumbscrew

Kevlar covered vent

Note: The RM is not included with SM Series
transmitters.

“Dweedle tones” can also be downloaded from the
web site at: www.lectrosonics.com. Go to the SM
Series transmitter page and follow the link.

8

Two Battery

Compartments

(SMDa, SMQa)

LECTROSONICS, INC.