Spacelabs Healthcare Ultraview 90479-A, Ultraview 90347, Ultraview 90343, Ultraview 90479-B, Ultraview 90479-C Service Manual

Ultraview® Digital Telemetry

90341, 90343, 90347, 90478, 90479-A/B/C,
91341-09, 91343-09, 91347-09

070-0744-01 Rev. C | www.spacelabshealthcare.com September 2013

SERVICE MANUAL

U LTRAVIEW DIGITAL TELEMETRY - SERVICE MANUAL

©2013 Spacelabs Healthcare

All rights reserved. Contents of this publication may not be reproduced in any form without
the written permission of Spacelabs Healthcare. Products of Spacelabs Healthcare are
covered by U.S. and foreign patents and/or pending patents. Printed in U.S.A. Specifications
and price change privileges are reserved.

Spacelabs Healthcare considers itself responsible for the effects on safety, reliability and
performance of the equipment only if:

• assembly operations, re-adjustments, modifications or repairs are carried out by persons
authorized by Spacelabs Healthcare, and

• the electrical installation of the relevant room complies with the requirements of the
standard in force, and

• the equipment is used in accordance with the operations manual.

Spacelabs Healthcare will make available, on request, such circuit diagrams, component part
lists, descriptions, calibration instructions or other information which will assist appropriately
qualified technical personnel to repair those parts of the equipment which are classified by
Spacelabs Healthcare as field repairable.

Spacelabs Healthcare is committed to providing comprehensive customer support beginning
with your initial inquiry through purchase, training, and service for the life of your Spacelabs
Healthcare equipment.

CORPORATE OFFICES

Corporate Headquarters

Spacelabs Healthcare

35301 SE Center Street
Snoqualmie, WA 98065
U.S.A.
Telephone: (1) 800-287-7108
Telephone: (1) 425-396-3300

Authorized EC Representative

Spacelabs Healthcare, Ltd.

43 Moray Place
Edinburgh, EH3 6BT
United Kingdom
Telephone: 44 (0) 131 240 6481
Fax: 44 (0) 131 240 6459

Please refer to http://www.spacelabshealthcare.com/en/company/trademarks for a full listing of
Spacelabs Healthcare trademarks. Other brands and product names used herein are trademarks of their
respective owners.

Caution:

US Federal law restricts the devices documented herein to sale by, or on the
order of, a physician.

Before use, carefully read the instructions, including all warnings and cautions.

Rx Only

!

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Table of Contents

1Introduction

Overview.............................................................................................................................. 1-1

System Components...................................................................................................... 1-3

Patient-Worn Transmitters

(90341, 90347, 90343, 91341, 91343, 91347)........................................................1-4

Selecting Options for the 90341/91341/91347 Lead Display .................... 1-8

Multiparameter Transmission (90343/91343) .............................................. 1-10

Battery Compartment SIP switches .................................................................. 1-10

Additional Data Transmitted ................................................................................1-12

Transmitter Batteries ............................................................................................ 1-12

Receiver Module (90478)...........................................................................................1-13

Receiver Electrical Requirements ..................................................................... 1-15

Receiver Physical Dimensions ............................................................................ 1-15

Receiver Housing (90479-A/B/C) ..........................................................................1-16

Receiver Housing Physical Dimensions .......................................................... 1-17

Receiver Housing Power Requirements ......................................................... 1-17

Receiver Housing Environmental Requirements ......................................... 1-17

Operating .....................................................................................................................1-17

Storage ..........................................................................................................................1-18

Receiver Housing Rear Panel ............................................................................. 1-18

2Setup

Unpacking .......................................................................................................................... 2-1

Unpacking the Patient-Worn Transmitter ....................................................... 2-2

To unpack the transmitter.................................................................................... 2-2

Unpacking the Receiver Housing ....................................................................... 2-3

To unpack the receiver housing (refer to the

Drawing 12, Sheet 1 of 1)........................................................................................ 2-3

Unpacking the Receiver ........................................................................................ 2-3

To unpack the receiver (refer to Drawing 3, Sheet 2 of 2) ..................... 2-3

Receiver Housing Configuration ..............................................................................2-4

To ready the 90479-A/B/C receiver housing for operation .................. 2-4

SDLC Configurations ............................................................................................. 2-6

AC Mains Voltage Selection ................................................................................ 2-8

To change the voltage selection .......................................................................2-8

Fuse Replacement .................................................................................................. 2-9

To replace AC line fuses for the receiver housing......................................2-9

Receiver Installation .............................................................................................. 2-9

To install receiver modules into the receiver housing .............................. 2-9

Receiver Housing Power Operation ................................................................. 2-11

Patient-Worn Transmitter Configuration

(90341, 90343, 90347)...............................................................................................2-12

Patient-Worn Transmitter Configuration

(91341, 91343, 91347)....................................................................................................2-13

Changing the Default Settings .......................................................................... 2-13

Units with Resistor Pack Programming ...........................................................2-14

Units with SIP Switch Programming .................................................................2-16

Verifying Correct Frequency Operation ........................................................ 2-18

Antenna System Installation .....................................................................................2-19

Site Survey ............................................................................................................... 2-19

Design ........................................................................................................................ 2-19

Installation ................................................................................................................ 2-19

Verification .............................................................................................................. 2-20

Tools for Tracking Transmitter Channels........................................................... 2-20

Wideband and Narrowband Channel Coordination and Deployment 2-23

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U LTRAVIEW DIGITAL TELEMETRY - SERVICE MANUAL

Wideband (50 kHz) Patient-Worn Transmitters ............................................ 2-50

Narrowband (25 kHz) Patient-Worn Transmitter............................................2-56

VHF Telemetry Channel Frequencies...................................................................2-68

3Theory

Patient-Worn Transmitters.......................................................................................... 3-1

Transmitter ECG PCBA Block Diagrams

(90341, 90343, 90347, 91341, 91343, and 91347) ......................................... 3-2

Transmitter ECG PCBA Description ................................................................. 3-3

Input Protection .........................................................................................................3-3

Lead Drive Switches ................................................................................................3-3

Input Buffers ............................................................................................................... 3-3

Lead Off Comparators ............................................................................................ 3-4

Differential Amplifiers ..............................................................................................3-4

Pacer Blanking Switches ........................................................................................ 3-4

Bessel Filter .................................................................................................................3-4

Final ECG Amplifiers ................................................................................................3-4

DC Restoration Comparators ...............................................................................3-4

Pacer Detection and Pacer Flag Generator .................................................... 3-4

Automatic Lead Switching PAL ..........................................................................3-4

Transmitter RF PCBA Block Diagrams (90341, 90343, 90347) ............. 3-5

Transmitter RF PCBA Description (90341, 90343, 90347) ..................... 3-8

Status Mux ................................................................................................................... 3-8

ECG Mux .......................................................................................................................3-8

PWM PAL ..................................................................................................................... 3-8

PWM Ramp Generator ............................................................................................ 3-8

PWM Comparator ..................................................................................................... 3-8

PWM Data Formatter ..............................................................................................3-8

PWM Filter ...................................................................................................................3-8

Voltage Controlled Crystal Oscillator ...............................................................3-9

First and Second Frequency Doublers .............................................................3-9

Transmitter RF PCBA Block Diagrams (91341, 91343, 91347) ................. 3-9

Transmitter RF PCBA Description (91341/91343/91347) .......................... 3-11

RF PCBA ....................................................................................................................... 3-11

Microcontroller ......................................................................................................... 3-14

Configuration SIP Switches ................................................................................. 3-14

Transmitter SpO

Definitions and Acronyms ....................................................................................3-16

Electrical Requirements .........................................................................................3-16

Pulse Oximetry Sensor Drive ...............................................................................3-17

NIBP Interface (SpO

Patient Isolation ........................................................................................................3-17

Functional Descriptions .........................................................................................3-17

Receiver Module ............................................................................................................3-21

Receiver Signal Flow ........................................................................................... 3-22

CPU (80C186) PCBA Description .................................................................... 3-23

Watchdog/Power Reset .......................................................................................3-23

SDLC Mainframe Interface ...................................................................................3-23

RUPI/80C186 Interface .........................................................................................3-24

ECG Data Interface .................................................................................................3-24

High-Level Outputs and Defibrillator Sync Input .......................................3-24

Configuration EEPROM .........................................................................................3-25

Front Panel LED Indicators .................................................................................3-25

Power Supply PCBA ............................................................................................ 3-26

Antenna PCBA ....................................................................................................... 3-26

RF PCBA .................................................................................................................. 3-26

PCBA Description (90343/91343 only) ..................... 3-16

2

to ABP) ............................................................................3-17

2

I-II

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U LTRAVIEW DIGITAL TELEMETRY - SERVICE MANUAL

Digital PCBA ........................................................................................................... 3-26

Modular Receiver Housing........................................................................................ 3-27

RF Signals ................................................................................................................ 3-27

90479-A Modular Receiver Housing ...............................................................3-27

90479-B/C Modular Receiver Housing ..........................................................3-28

Analog Output ....................................................................................................... 3-28

Power Supply ......................................................................................................... 3-28

Power Supply Functional Description ........................................................... 3-29

AC Input Module ......................................................................................................3-29

AC Input Rectifier and Filter ...............................................................................3-29

100 kHz DC-to-DC ................................................................................................. 3-30

Switcher Feedback Power .................................................................................. 3-30

Gate Drive Transformer ....................................................................................... 3-30

Main Isolation Transformer .................................................................................3-30

Secondary Side ....................................................................................................... 3-30

Battery Disconnect ................................................................................................ 3-30

Over/Under Voltage Shutdown .........................................................................3-31

DC ON/OFF ................................................................................................................3-31

+5 V, +12 V, and -12 V DC-to-DC Converter ...................................................3-31

LED/AC Operation ..................................................................................................3-31

Antenna Systems ..........................................................................................................3-31

Antenna Distance and Power Loss .................................................................. 3-31

Path Loss ....................................................................................................................3-32

Diversity Antenna System ................................................................................. 3-32

4Maintenance

Overview.............................................................................................................................4-1

Cleaning/Disinfecting ...................................................................................................4-2

Physical Inspection ........................................................................................................4-3

Transmitter ................................................................................................................ 4-3

Receivers ................................................................................................................... 4-3

Housing ...................................................................................................................... 4-3

Antenna System Inspection .......................................................................................4-4

Preventive Maintenance ..............................................................................................4-4

Antenna System ...................................................................................................... 4-4

Test Equipment Required ......................................................................................4-4

Verification ..................................................................................................................4-4

Safety Verification ......................................................................................................... 4-5

Current Leakage Measurements (90479-A/B/C only) .............................. 4-6

Battery Backup Test ..................................................................................................... 4-6

To conduct the module housing battery backup test...............................4-6

Battery Disposal..............................................................................................................4-7

Disassembly/Assembly of the Receiver Module................................................ 4-7

Disassembling the Receiver Module ................................................................ 4-8

Assembling the Receiver Module .................................................................... 4-10

Disassembling/Assembling the Module Housing ...................................... 4-10

Battery Replacement .............................................................................................4-10

To replace the internal power backup battery .......................................... 4-10

Top Cover Removal ..................................................................................................4-11

To remove the module housing top cover ....................................................4-11

Power Supply Removal ...........................................................................................4-11

To remove the power supply from the module housing .........................4-11

RF Amplifier Removal ............................................................................................4-12

To remove the RF Amplifier PCBA..................................................................4-12

Disassembling the 90347 and 90341 Transmitters ................................... 4-12

To remove the ECG and transmitter PCBAs................................................4-12

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U LTRAVIEW DIGITAL TELEMETRY - SERVICE MANUAL

Assembling the 90347 and 90341 Transmitters ......................................... 4-14

To replace the ECG and transmitter PCBAs ............................................... 4-14

Disassembling the 90343 Transmitter ........................................................... 4-14

To remove the ECG, transmitter, and SpO

Assembling the 90343 Transmitter ................................................................ 4-16

To replace the ECG, transmitter, and SpO

ECG Performance Test ........................................................................................ 4-17

SpO

Performance Test ....................................................................................... 4-18

2

Disassembling and Reassembling the 91341/91347 Transmitter ........ 4-20

Disassembling and Reassembling the 91343 Transmitter ...................... 4-22

Transmitter Field Alignment Procedures........................................................... 4-24

Definitions ............................................................................................................... 4-24

Test Equipment Required .................................................................................. 4-25

Initial Equipment Setup ...................................................................................... 4-25

Equipment Setup .................................................................................................. 4-25

Equipment Setup .................................................................................................... 4-26

Power-Regulated Current Drain Test...................................................................4-27

First Current Drain Test ...................................................................................... 4-27

Crystal Oscillator Test ......................................................................................... 4-27

Power Output Adjustment ................................................................................ 4-28

Assigned Frequency Alignment ...................................................................... 4-28

Final Current Drain Test ..................................................................................... 4-29

Transmitter Alignment Procedures...................................................................... 4-29

Power Output Test and Center Frequency Adjustment

For Models 90341, 90343, and 90347 .......................................................... 4-29

Power Output Test ................................................................................................ 4-29

Center Frequency Adjustment .........................................................................4-30

Output Power Test and Center Frequency Tests For Models 91341-09,

91343-09, and 91347-09 ..................................................................................... 4-33

Equipment Required ............................................................................................. 4-34

Output Test .............................................................................................................. 4-35

To verify transmitter power ouput ................................................................ 4-35

Verify Center Frequency, Model 91341-09 ................................................... 4-36

To verify transmitter center frequency........................................................ 4-36

Verify Center Frequency, Models 91343-09 and 91347-09 ................... 4-36

To verify transmitter center frequency........................................................ 4-36

Field Current Drain Test ............................................................................................4-37

Initial Test Setup for 90341, 90347, 90343, 91341, 91343, and

91347 Transmitters ................................................................................................ 4-38

Current Drain Test for 90341 and 90347 Transmitters ........................... 4-39

Current Drain Test for 90343 Transmitters ................................................. 4-39

Current Drain Test for 91341/91343/91347 Transmitters ........................4-40

5Troubleshooting

Diagnostics ........................................................................................................................ 5-1

Receiver Self-Test ................................................................................................... 5-1

Receiver LEDs ........................................................................................................... 5-1

Patient-Worn Transmitter .................................................................................... 5-3

Touchscreen Messages and Troubleshooting Guide........................................ 5-3

ECG Alarm Message Summary .......................................................................... 5-4

CHECK XX .................................................................................................................... 5-4

ABNORMAL/MINUTE ALARM ..............................................................................5-4

ASYSTOLE ...................................................................................................................5-4

COUPLET ALARM .....................................................................................................5-4

ECG ALARMS OFF ....................................................................................................5-4

ECG ALARMS SUSPENDED .................................................................................. 5-4

PCBAs................................. 4-16

2

PCBAs ................................. 4-16

2

I-IV

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ECG PROCESSING SUSPENDED ......................................................................... 5-5

ECG VOLTAGE TOO LOW .................................................................................... 5-5

HI RATE ALARM ........................................................................................................5-5

IN LEARN ...................................................................................................................... 5-5

CHAN 1 & 2 LEADS OFF ......................................................................................... 5-5

CHAN 1 LEADS OFF .................................................................................................5-5

CHAN 2 LEADS OFF ................................................................................................ 5-5

LO RATE ALARM ...................................................................................................... 5-5

NEW DOMINANT ...................................................................................................... 5-6

NOISY SIGNAL ...........................................................................................................5-6

RUN ALARM ................................................................................................................ 5-6

V FIB ...............................................................................................................................5-6

SpO

Alarm Message Summary ......................................................................... 5-6

2

ADAPTER DISCONNECTED — CHECK CONNECTION AT MODULE ... 5-7

SENSOR DISCONNECTED — CHECK CONNECTION AT

ADAPTER CABLE ..................................................................................................... 5-7

SENSOR OFF PATIENT — CHECK CONNECTION AT PATIENT ............. 5-8

FAULTY SENSOR — REPLACE SENSOR .........................................................5-8

AMBIENT LIGHT INTERFERENCE — COVER SENSOR AREA .................5-8

INSUFFICIENT SIGNAL — REPOSITION OR REPLACE SENSOR ...........5-8

NOISY SIGNAL ........................................................................................................... 5-8

NIBP Alarm Message Summary ......................................................................... 5-8

NIBP UNAVAILABLE (xx) ...................................................................................... 5-9

NIBP READING FAILURE (xx) .............................................................................. 5-9

NIBP AIR LEAK ........................................................................................................... 5-9

NIBP LOOSE OR NO CUFF ...................................................................................5-9

NIBP READING CANCELLED ............................................................................... 5-9

NIBP LOW BATTERY ...............................................................................................5-9

NIBP KINKED HOSE .................................................................................................5-9

NIBP EVENT CODE (xx) ......................................................................................... 5-9

Telemetry Radio Frequency Problem Solving ..................................................5-10

Frequent Squelch .................................................................................................. 5-10

90479-A Receiver Housing ................................................................................. 5-10

90479-B/C Receiver Housing ..............................................................................5-11

Signal Interference ....................................................................................................5-11

Reducing Squelch .....................................................................................................5-11

Use of RF Performance Statistics .................................................................... 5-12

Squelch Statistics Menu ......................................................................................... 5-13

Receiver Does Not Display an ECG Trace .................................................... 5-14

Specific Receiver Will Not Sign On to Monitor ........................................... 5-14

No Receiver Signs On to Monitor .................................................................... 5-15

Power Supply Voltage Measurements (90479-A/B/C) ........................... 5-16

6Parts

Overview.............................................................................................................................6-1

Assembly Drawings........................................................................................................ 6-1

A Appendix A — Electromagnetic Compatibility

Electromagnetic Emissions .........................................................................................A-1

Electromagnetic Immunity .........................................................................................A-2

Frequency Separation Distances............................................................................ A-3

Left Ventricular Assist Device (LVAD) .................................................................A-4

Command Module (91496) .................................................................................. A-4

To turn pacer detection OFF ............................................................................. A-4

Telemetry .................................................................................................................. A-4

B Appendix B — Symbols

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I-VI

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U LTRAVIEW DIGITAL TELEMETRY - SERVICE MANUAL

Introduction

Overview

The Ultraview® Digital Telemetry System is comprised of patient­worn transmitters, a ceiling-mounted antenna system, receiver
modules, receiver module housings, central surveillance monitors,
and central strip recorders. Portable bedside patient monitors are
often incorporated into the telemetry system. A patient-worn
ambulatory blood pressure (ABP) monitor and its management
software may also integrate into the system.

Notes:

• Spacelabs Healthcare products and parts are designed and
manufactured in accordance with the Food and Drug
Administration’s (FDA) Quality System Regulation (QSR) and
in compliance with all applicable regulatory requirements. To
ensure proper operation in accordance with these guidelines,
Spacelabs products must be maintained by trained
technicians using only authorized replacement parts.
Spacelabs replacement parts have been thoroughly tested to
ensure reliable performance and include all of the latest
improvements and design changes available to ensure a
quality repair process.

• Prior to deployment of 90341/90343/90347/91341/91343/
91347 transmitters, hospital registration and deployment
registration must be performed with the WMTS Frequency
Coordinator. Refer to www.ashe.org for more information.

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1-1

U

91341/91347 (ECG)

digital telemetry

transmitter

90341/90347

(ECG)

digital telemetry

transmitter

90343

(ECG and SpO

2

)

digital telemetry

transmitter

91343

(ECG and SpO2)
digital telemetry

transmitter

Diversity antenna

system

90478-Q receiver

module

90478-T/V

receiver module

SL2200/SL2400/SL2600

bedside or portable monitor

SL3800 central

monitor with SDLC

cabling (1)

90479-A/B/C Digital telemetry

receiver module housing

1

LTRAVIEW DIGITAL TELEMETRY -

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S

I NTRODUCTION

Figure 1-1 Ultraview Digital Telemetry system components

1-2

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- S

System Components

Patient-worn transmitters:

Ceiling-mounted antenna kits:

Receiver modules:

I NTRODUCTION

90341 ECG (25 kHz narrowband)

90347 ECG (50 kHz wideband)

90343 Multiparameter (50 kHz wideband)

91341 ECG (25 kHz narrowband)

91343 Multiparameter (50 kHz wideband)

91347 ECG (50 kHz wideband)

174-216 MHz VHF, Passive

433-471 MHz UHF, Passive

608-614 MHz UHF high-gain, Passive

608-614, 1395-1400, 1427-1431.5 MHz, Active

90478-N 202-203 MHz English, Dutch

90478-G 430-442 MHz English, German, French,

Italian, Spanish, Dutch,
Swedish

90478-R 455-460 MHz English

90478-U 460-470 MHz English, French, Italian

90478-I 608-614 MHz English, French

90478-Q 608-614 MHz English, French

90478-T 602-607 MHz English

90478-V 615-619.5 MHz English

Receiver module housings:

90479-A/B/C

Central surveillance monitors:

90387 Ultraview 1700

91387 Ultraview SL3800

Central strip recorder:

90469

Portable patient monitors:

90369 Ultraview 1050

91367 Ultraview SL™ 2200

91369 Ultraview SL2400

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91370 Ultraview SL2600

Patient-worn ABP monitors:

90217 Ultralite™ ABP monitor

90121 Report Management software

Patient-Worn Transmitters (90341, 90347, 90343, 91341, 91343, 91347)

The patient-worn transmitter is a small, battery-powered device that
collects physiologic data and communicates it via radio frequencies
(RF) through a system of ceiling-mounted antennas to a receiver
and central monitoring station for viewing and analysis. The
transmitter must be in range of a receiver module or its ceiling­mounted antenna system for surveillance monitors to display
waveforms and generate alarm events and patient data (trends).
Spacelabs offers several patient-worn transmitter models that vary
in frequency-operation and clinical functionality, described in Table

1-1 and in Table 1-2 on page 1-7.

I NTRODUCTION

1-4

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Table 1-1 Patient-Worn Transmitter Specifications: 90341, 90347, and 90343

I NTRODUCTION

Model,

frequency

(MHz), &

country

Regulatory

approvals

ECG only ECG only

90341-74: 174.0125 to

197.9875 MHz (US)
90341-16: 198.0125 to

216.9875 MHz (US)
90341-16-IEC: 202.6875
to 205.1375 MHz
(Netherlands)
90341-50: 458.525 to

458.0875 MHz (UK)
90341-32: 433.0625 to

434.7875 MHz (Germany,
Austria, Czech Republic,
France, Italy, Spain,
Portugal, Belgium,
Netherlands, Australia)
90341-34: 433.075 to

433.350 MHz (Spain)
90341-52: 468.625 to

468.675 MHz (Finland)
90341-42: 438.025 to

439.975 MHz (Sweden)
90341-46: 440 to

441.975 MHz (Norway)
90341-40: 469.1625 to

469.850 MHz (Australia)
90341-53: 470 to

470.500 MHz (New
Zealand)
90341: 460 to 470 MHz
(US, Canada)
90341-05: 608 to
614 MHz

2

(US, Canada,

Australia)

CE marked to MDD

3

RTTE Directive
FCC/Industry Canada
(IC)
(90341 & 90341-05 only)
CSA

90347-05: 608 to 614
MHz (US, Canada,
Australia)
90347-05-IEC: 608 to
614 MHz (France)

1

&

FCC/IC
CSA
MDD

Multiparameter
(ECG & SpO

90343-05: 608 to 614
MHz (US, Canada,
Australia)
90343-05-IEC: 608 to
614 MHz (France)
90343-16: 202.6825 to

205.1375 MHz
(Netherlands)
90343-16-AAMI:

202.6825 to 205.1375
MHz (Taiwan)

FCC/IC (90343-05 only)
CSA
MDD

)

2

Bandwidth 25 KHz 50 kHz

ECG leads

transmitted

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II and V1 or II and III Seven

(from 4 vectors)

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Table 1 -1 Patient-Worn Transmitter Specifications: 90341, 90347, and 90343

I NTRODUCTION

(Continued)

Multiparameter
(ECG & SpO

ECG lead

viewing/

analysis

SpO

2

ECG only ECG only

II and V1 or two of six
(in Limb Lead mode)

No Yes: Spacelabs algorithm

Two of seven

with Nellcor sensors

NIBP No Yes: Interfaces with

Spacelabs 90217 ABP

monitor

Pacer ID Yes: +2 mV to +7 mV

Remote

Ye s

Record button

Battery type One 9 V alkaline or lithium

Alkaline

Battery life

(refer to Table

1-6 on page 1-

52 hours 24 hours with ECG &

continuous SpO

48 hours ECG only

12)

Antenna type Right arm leadwire

Size

(H × W × D)

Wei gh t 19 2.7 g (6.78 oz )

w/o battery

13.3 × 7.2 × 2.5 cm

(5.25 × 2.85 × 0.98 in)

241 gm (8.5 oz)

w/o battery

)

2

,

2

1-6

Wat er

Yes: EN 60529-IPX2

resistance

Incompatibility 9034x-15 Not compatible with

9034X telemetry processors

Output power <1 mW EIRP

1

Private Land Mobile Radio band (US & Puerto Rico only)

2

Wireless Medical Telemetry Service (US & Puerto Rico only)

3

Medical Device Directive

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Table 1 -2 Patient-Worn Transmitter Specifications: 91341, 91343, 91347

I NTRODUCTION

Multiparameter
(ECG & SpO

91343-09: (US only)
1395 to 1400 MHz
(Entire US)
1427 to 1431.5 MHz
(FCC band swap in effect
in certain US cities)

FCC
CSA
MDD

Model,

frequency

(MHz), &

country

Regulatory

approvals

ECG only ECG only

91341-09: (US only)
1395 to 1400 MHz
(Entire US)
1427 to 1431.5 MHz
(FCC band swap in effect
in certain US cities)

FCC
CSA
MDD

91347-09: (US only)
1395 to 1400 MHz
(Entire US)
1427 to 1431.5 MHz
(FCC band swap in effect
in certain US cities)

FCC
CSA
MDD

Bandwidth 25 kHz 50 kHz

ECG leads

transmitted

ECG lead

viewing/

II and V1 or II and III Seven

(from 4 vectors)

II and V1 or two of six

Two of seven

(in Limb Lead mode)

analysis

SpO

2

No Yes: Spacelabs algorithm

with Nellcor sensors

NIBP No Yes: Interfaces with

Spacelabs 90217 ABP
monitor

Pacer ID Yes: +2 mV to +7 mV

)

2

Remote

Record button

Battery type One 9 V alkaline or lithium

Alkaline

Battery life

(refer to Table

1-6 on page 1-

12)

Antenna type Integrated dipole

Size

(H × W × D)

Weight 209.8 g (7.4 oz) w/o

Wat er

resistance

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battery

Ye s

52 hours 24 hours with ECG and

continuous SpO
48 hours ECG only

16.5 × 8.1 × 2.5 cm

(6.5 × 3.2 × 0.98 in)

209.8 g (7.4 oz) w/o

16.5 × 8.1 × 3 cm

(6.5 × 3.2 × 1.18 in)

261 g (9.2 oz) w/o battery

battery

Yes: EN 60529-IPX2

2;

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Table 1 -2 Patient-Worn Transmitter Specifications: 91341, 91343, 91347 (Continued)

I NTRODUCTION

ECG only ECG only

Incompatibility Not compatible with 9034X telemetry processors

Output power <5 mW EIRP, max

Multiparameter
(ECG & SpO

A patient-activated RECORD button can be used to initiate an event
recording at the system printer (this feature must first be enabled at
the monitor using the ECG TM SETUP menu). All four telemetry
patient-worn transmitters incorporate a low battery indicator that
flashes when the battery capacity has approximately three hours of
remaining energy.

• Wideband (50 kHz) 90343, 90347, 91343, and 91347 ECG
transmission enables you to view two of seven available leads
(from four vectors with a synchronized RF digital signal).

• Narrowband (25 kHz) 90341/91341 ECG transmission enables
you to view either two of two or two of four available leads
(from two vectors with a synchronized RF digital signal).

• The 91341, 91343, and 91347 transmitter provides functionality
for local lead fault indicators and user-configurable transmit
frequency operation.

The front labels on the transmitters are color coded to their
compatible receivers.

• The 90341, 90343, and 90347 transmitter labels are blue.

• The 91341, 91343, and 91347 transmitter labels are green.

)

2

Selecting Options for the 90341/91341/91347 Lead Display

There are two operational modes available with the 90341 dual-lead
transmitter: (1) the standard mode which offers a choice of one V
lead (V1-6), plus lead II, or (2) the limb lead mode which offers
choices of the leads I, II, III, AVR, AVL, or AVF. The standard mode is
available if the chest lead is applied. The limb lead mode is available
when there is not a chest lead applied. Loss of the chest electrode
changes the ECG - LEAD SELECT menu to the limb lead mode if the
left arm, left leg, and right arm electrodes are intact.

Note:

Both modes work correctly with or without the right leg
electrode attached. However, for optimum performance, the
right leg electrode should always be used.

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Lead fault indicators

(91341 and 91347)

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I NTRODUCTION

Table 1-3 90341/91341 Lead Options

Connected Electrodes (X)

C
(C)

LA
(L)

X X X X V1-6 and II (standard mode)

X X X III (standard mode)

X X X I (standard mode)

X X Total lead failure (standard mode)

XXXII (standard mode)

X X None (lead failure)

X X None (lead failure)

X None (lead failure)

LL
(F)

RA
(R)

X None (lead failure)

Val id Le ad Vecto rs

X None (lead failure)

X None (lead failure)

None (lead failure)

X X III (limb lead mode)

X X I (limb lead mode)

X X II (limb lead mode)

X X X I, II, III, AVR, AVL, AVF (limb lead mode)

Notes:

• If one of the leads fails, a lead fault message will display in the

upper-left corner of the waveform zone. If there is not a valid
lead vector, the message LEADS OFF displays and an alarm
tone sounds.

• The 91341 and 91347 dual-lead transmitters have blue

indicators near the ECG connector block. Each indicator
provides the status of its respective lead wire and flashes if its
lead wire is disconnected from the skin electrode or if the skin
electrode makes poor electrical contact with the patient.

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Figure 1-2 91341/91347 transmitter

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Multiparameter Transmission (90343/91343)

The following data can be transmitted by the multiparameter,
patient-worn transmitter:

•SpO

• NIBP (with the model 90217 ABP monitor)

Battery Compartment SIP switches

(with Nellcor pulse oximetry sensors)

2

- saturation

-SpO

sensor status

2

-pulse rate

-systolic

- diastolic

- mean pressure

- measurement time

- alarm conditions

I NTRODUCTION

SpO2 data averaging is used to smooth the oximetry saturation
value by averaging the patient input values over 4, 8, or 16 seconds.
This selection is made by setting the SIP switches 1 and 2 beneath
the battery compartment in the multiparameter, patient-worn
transmitter. The default value is 8 seconds. Refer to Figure 1-3 on
page 1-11.

Caution:

Avoid using pencils or sharp instruments to configure the SIP
switches.

Notes:

• Setting both SIP switches 1 and 2 to ON disables SpO

transmission.

•To enable SpO

and re-install the battery.

• Disabling SpO

transmitter lengthens battery life.

SIP switch 1 SIP switch 2 Effect

OFF OFF 4 seconds averaging enabled

, remove the battery, set the selected interval,

2

operation in the 90343/91343 patient-worn

2

Table 1-4 SIP switch 1 and 2 Settings

data

2

1-10

OFF ON 8 seconds averaging enabled (default)

ON OFF 16 seconds averaging enabled

ON ON Disable SpO

operation

2

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1 2 3 4

SpO

2

averaging

period

SpO

2

reading

interval

5 6 7 8

ON

OFF

enable
normal

enabledisable

IABP

disable

NIBP

Adult

enable

NIBP

enable

IABP

enable

Neonate

enable
Service use

operation

ERVICE MANUAL

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I NTRODUCTION

The current setting of the SpO2 averaging period can be displayed
by pressing the ECG CHANNEL FORMAT key and enabling SpO

Figure 1-3 SIP switch setting in battery compartment

The sampling interval selection enables you to determine how often
an SpO

measurement will be taken. Less frequent SpO2 readings

2

can extend the usable life of the battery. (Refer toTransmitter

Battery Service Life1(hours) on page 1-12 for more information.) This

selection is made by setting SIP switches 3 and 4 beneath the
battery compartment. The default setting is CONTINUOUS.

Caution:

No SpO2 monitoring occurs between episodic sampling intervals.
Clinical practice or medical judgement should be used in selecting
continuous or episodic SpO
patient.

Table 1-5 SIP switch 3 and 4 Settings

monitoring mode for each specific

2

.

2

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SIP switch 3 SIP switch 4 Effect

Caution:

SIP switch 8 must remain OFF for normal operation.

OFF OFF Continuous sampling (default)

OFF ON 2-minute sampling interval

ON OFF 5-minute sampling interval

ON ON 30-minute sampling interval

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Additional Data Transmitted

The following information is also transmitted:

• Patient record

• Low battery indicator

•Pacer flag

• Transmitter type and channel number codes

•Electrode connection status

Transmitter Batteries

The patient-worn transmitters use a 9V lithium or alkaline battery. A
yellow LED flashes when battery level is low.

Table 1-6 Transmitter Battery Service Life1(hours)

I NTRODUCTION

Battery
Type

Load
Conditions

90343,
91343

90341,
90347,
91341,
91347

9 Volt Alkaline (ANSI/NEDA 1604A) 9 Volt Lithium (ANSI/NEDA 1604LC)

ECG

2

Only

ECG and
Con­tinuous
SpO

2

ECG and 2­minute
Episodic
SpO

2

ECG and 5­minute
Episodic
SpO2

48 24 36 38 40 120 60 100 104 106

5 2 N /A N /A N /A N /A 1 32 N /A N /A N /A N /A

1 Operational service life (in hours) assuming a new alkaline battery

(minimum 580 mAH capacity) or lithium battery (minimum 1200
mAH capacity) used until the local low battery indicator begins to
flash.

2

NIBP operations from a 90217 ABP monitor sending readings to

the 90343/91343 multiparameter telemetry transmitter. The
90217 ABP monitor will inflate a standard size adult cuff at least
240 times with alkaline batteries.

ECG and
30-minute
Episodic
SpO2 and
NIBP

ECG
Only

ECG and
Con­tinuous
SpO

2

ECG and 2­minute
Episodic
SpO2

ECG and
5-minute
Episodic
SpO

2

ECG and
30-minute
Episodic
SpO

2

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I NTRODUCTION

Warning:

Medical telemetry spectrum allocations may be assigned to
frequencies already allotted to other priority users. This means
that telemetry operations may be exposed to radio frequency
interference that may disrupt or impede telemetry patient
monitoring. Customers are urged to regularly consult with
applicable local and federal regulatory agencies (e.g., FCC, FDA,
etc.) regarding the locations and frequencies of other spectrum
users in the customer’s geographic area. Spacelabs Healthcare
Service Representatives may be able to assist you in reconfiguring
your equipment frequencies to reduce this risk of potential
interference. Spacelabs cannot, and does not, guarantee
interference-free telemetry operation.

Cautions:

• This device has a limited bandwidth from .05 to 30 Hz, which
may adversely affect the recording of high frequency
components in the ECG signal, especially when the morphology
of the ECG changes rapidly.

• This device has a limited dynamic range of ±4 mV, which may
render the device vulnerable to saturation by ECG signals with
amplitudes higher than 4 mV.

• Use only the following solutions per the manufacturer’s labeling:
Isopropyl Alcohol (70%), Hydrogen Peroxide, Cidex, Betadine,
and chlorine bleach. Use of cleaning solutions other than those
listed will VOID the warranty on the equipment cases.

• Refer to Cleaning/Disinfecting on page 4-2 for additional
instructions.

Receiver Module (90478)

The 90478 telemetry receiver module analyzes the waveform sent
by a patient-worn transmitter. This analysis consists of evaluating
dual-lead arrhythmias and ST segments. The receivers also retain
patient data such as alarm events, arrhythmia and ST-segment
trends. On the central monitor’s display, each ECG waveform zone
generally represents the user interface for one receiver module.

Receiver modules are generally inserted into a 90479-A/B/C
receiver housing. The receiver housing allows each receiver module
to be directly connected to the antenna system via input connectors
(BNC) labelled ANT 1 and ANT 2. The receiver housing is connected
to a central monitor by an SDLC cable.

The 90478-Q receiver module can also reside in a bedside monitor.
Small whip antennas attach directly to the receiver’s input
connectors. In this case, the patient-worn transmitter may wirelessly
communicate directly with the receiver module and is not required
to connect to the ceiling-mounted antenna system.

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I NTRODUCTION

Each receiver module operates within a specific frequency band. A
receiver module can be tuned to any patient-worn transmitter’s
channel (operating frequency), provided the channel falls within the
same frequency band.

Monitor options provide 24 hours of trended data that can be
displayed in 2-, 6-, 12-, and 24-hour segments. Data is stored in 1­minute resolution.

The receiver module counts as 1 or 2 parameters when computing
parameter capacity for monitors:

• 1 displayed ECG lead = 1 parameter

• 2 displayed ECG leads = 2 parameters

Signal reception requires the use of a different frequency (channel)
assigned to each receiver. In the U.S.A., these transmission
frequencies are regulated by the Federal Communications
Commission (FCC). In other countries, these transmissions are
regulated by the local communications authority.

Telemetry use is managed through the operation of the Ultraview
Care Network Module Configuration Manager. Refer to the Module
Configuration Manager System Administration Guide (P/N 070­1245-xx), located on CD-ROM P/N 084-1101-xx.

The high level analog output has the following characteristics:

ECG 1 Used for defibrillator synchronization

Connector: 3-conductor TT phone jack

Dynamic Range ±5 mV, ±10% (rti)

Gain ECG × 1000, ±5%

Bandwidth 0.05 to 30 Hz, ±10% (-3 dB)

Table 1-7 Transmitter/Receiver Compatibility

Transmitter
Model

90341-05
90343-05
90347-05

90343-16 202.65 - 205.15 90478-N, 90478-O

91347

91341

91343

91347

91341

1

91343

1

The 91341/91343/91347 ECG telemetry is used in conjunction with

the Multi-Band Active Antenna system to down-convert 1400
MHz emissions into the 600 MHz band for detection.

Operating Frequency
Range (MHz)

608 - 614 90478-Q

1395 - 1400 90478-T

1427 - 1431.5 90478-V

Compatible
Receiver Module

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TIP — Analog ECG out
RING — defib sync. input
sleeve — ground

1

2
3

4

5

1

high level output (hlo)

2

LED

3

ANT 1

4

ANT 2

5

handle

ERVICE MANUAL

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I NTRODUCTION

Table 1-8 Monitor Software Compatibility

Monitor

PC Express® Yes 3.6 7.0 5

PC Scout

UCW

Ultraview 1030/1050 Yes 1.02.01

Ultraview 1500 Yes 1.03.03

Ultraview 1600 Yes 1.03.03

Ultraview 1700 Yes 1.06.61

Ultraview SL2400 Yes 2.00.03

Ultraview SL2700/2800/3800 Yes 2.00.03

®, PC Ranger® Yes 3.53.36

® Yes 1.0 6. 61

Compatible with
Ultraview Telemetry?

Minimum Software Version
Needed for Compatibility

Receiver Electrical Requirements

Power Consumption ≤ 5.0 watts

External Indicators LED lights when user accesses control

Receiver Physical Dimensions

Height 11.33 cm (4.46 inches)

Width 5.69 cm (2.24 inches)

Depth 17.78 cm (7 inches)

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Weight 1.09 kg (2.4 pounds)

Figure 1-4 Receiver module

1-15

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1

2

3

4

1 receiver

module slot
(for eight
modules)

2 antenna cable

(pulled out)

3 antenna cable

(stowed)

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I NTRODUCTION

Warnings:

• Telemetry systems may be more susceptible to interference than hardwired systems,
which may impact patient safety.

• Operation of hand-held, wireless telephone equipment (cordless telephones, cellular
telephones) near telemetry systems may cause interference and should be
discouraged. While personal communication devices are powered ON, a separation
of >6.5 feet (>2 meters) should be maintained between personal communication
devices and interior walls, the patient cables, and any electronic medical device to
which the patient may be connected. Patients should not use any type of electronic
communication equipment while connected to any electronic medical device without
an on-site evaluation by the biomedical staff. Two-way radio equipment and other
personal communication devices must be evaluated on site to determine if
additional space limitations are needed.

• Do not install a telemetry receiver module into a bedside which is currently equipped
with any other ECG module, hardwired or telemetry (or SpO
module if the 90343 or 91343 is operating with that specific receiver module). Doing
so may result in inaccurate patient data displays at remote monitors.

• Only 90478-Q modules may be installed in transport monitors.

module or NIBP

2

Receiver Housing (90479-A/B/C)

The receiver housing is used for centralized telemetry applications
and connects directly to a central monitor through an SDLC cable. It
provides up to eight plug-in slots for telemetry receiver modules.
Additional receiver modules may be utilized by connecting another
receiver housing to the SDLC bus (refer to SDLC Configurations on
page 2-6). A diversity antenna system connects to the back of the
housing. Special dual cable assemblies on the front panel plug into
each receiver’s antenna inputs (ANT 1 and ANT 2). Except for power
ON/OFF switches (AC mains and battery), there are no operator
controls. An indicator lamp on the front panel lights when the unit is
connected to AC power. An internal battery provides at least ten
minutes of operation when AC power is lost. (Refer to Receiver

Housing Power Operation on page 2-11.)

1-16

Figure 1-5 90479-A receiver housing front view

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1

2

3

1 receiver

module slot
(for eight
modules)

2 antenna cable

(stowed)

3 AC line status

light

ERVICE MANUAL

- S

Figure 1-6 90479-B/C receiver housing front view

Receiver Housing Physical Dimensions

Height 30.5 cm (12.0 inches)

I NTRODUCTION

Width 34.3 cm (13.5 inches)

Depth 44.5 cm (17.5 inches), includes protective cover

Weight 14.6 kg (32 pounds), without modules loaded

23.6 kg (52 pounds), with eight modules loaded

Receiver Housing Power Requirements

100 to 120 VAC, 50/60 Hz, 2 A

220 to 240 VAC, 50/60 Hz, 1 A

Receiver Housing Environmental Requirements

Operating

Temperature 10° to 40° C (50° to 104° F)

Humidity 95% (non-condensing)

Altitude 0 m to 3048 m (0 to 10,000 feet)

BTU Out 256 BTU/h with eight modules loaded

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Cooling 50 CFU

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1

2

3

7

6

4

5

1

23

6

5

7

4

90479-B/C

90479-A

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Storage

Temperature -40° to 65° C (-40° to 149° F)

Humidity 95% (non-condensing)

Altitude -152.4 m to 12,192 m (-500 to 40,000

Receiver Housing Rear Panel

I NTRODUCTION

feet)

1-18

Figure 1-7 Receiver housing rear panel

1 SDLC cable

2 SDLC connectors (4)

3 High level outputs

4 AC power switch and fuse assembly

5 Inputs for diversity antennas (ANT 1, ANT 2)

6 SDLC terminator

7 DC power ON/OFF switch

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Setup

Unpacking

Each patient-worn transmitter, receiver module, and receiver
housing are packaged individually. Unpack the transmitter and its
accessories, the SpO

Unpacking the Patient-Worn Transmitter on page 2-2). Carefully

unpack the receiver housing (refer to Unpacking the Receiver

Housing on page 2-3). When removing the packing material around

the front panel take care not to damage the antenna cables. These
cables should be properly stowed in the appropriate cable ports on
the front bezel [refer to Receiver Housing (90479-A/B/C) on
page 1-16].

Ensure that you do not turn the rear panel DC power switch ON. This
unnecessarily drains the battery. Remove the accessories from the
packing carton (e.g., power cord, power cord retainer, SDLC cable,
and manual) to inspect each for damage. Also inspect the air filter
on the bottom of the receiver housing.

Unpack each receiver module from its shipping container for
inspection (refer to Unpacking the Receiver on page 2-3). Save all
packing materials in case a part must be returned.

adapter cable, and its accessory kit (refer to

2

Caution:

Open containers carefully to prevent any damage to equipment.

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Note:

If your equipment shows evidence of shipping damage,
immediately notify the carrier and Spacelabs Healthcare.

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Unpacking the Patient-Worn Transmitter

To unpack the transmitter

Notes:

• For the 90341 illustration, refer to Drawing 1, Sheet 3 of 3,
right side.

• For the 90343/91343 illustration, refer to Drawing 2, Sheet 3
of 3, right side.

• For the 90347 illustration, refer to Drawing 5, Sheet 3 of 3,
right side.

• For the 91341/91347 illustration, refer to Drawing 6, Sheet 1 of
2, right side.

1 Cut the white label using a knife (with the transmitter’s serial

number) that holds the container flap shut, along the edge of
the container.

2 Pull the container flap open. Pull from the edge cut-outs of the

cardboard insert to expose the transmitter.

3 Pull the transmitter out of the container, by holding the

transmitter from opposite ends at the cut-outs in the
cardboard insert.

4 Remove transmitter from its bag. The 90343/91343 transmitter

includes two connector caps.

5 Remove the cardboard insert from the container to expose the

SpO

adapter cable assembly (90343/91343 only), the

2

connector cap kit (90343/91343 only) and the transmitter
accessory kit.

6 Open the accessories bag (except for the connector cap kit

which includes four spare caps), to verify its contents: SpO
adapter cable, ECG lead wire set (5 lead wires), transmitter
pouch, two 9-volt batteries, belt clip, and related screws.

7 Retain the Wireless Medical Telemetry Service (WMTS)

registration card.

8 Save all packing materials in case the transmitter must be

returned.

S ETUP

2

2-2

Notes:

• Prior to deployment of 90341/90343/90347/91341/91347/
91343 transmitters, hospital registration and deployment
registration must be performed with the WMTS Frequency
Coordinator.

• Refer to www.ashe.org for more information.

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Unpacking the Receiver Housing

To unpack the receiver housing (refer to the Drawing 12, Sheet 1 of 1)

1 Cut the tape that holds the container flaps shut using a knife at

the container top end.
The container top end is up when the writing on the sides of the
box reads right-side-up.

2 Remove the two bagged accessories situated on the top foam

insert and set them aside.

3 Carefully turn the container upside down with all four flaps out

of the way.

4 Gently pull the container up and out of the way, to expose its

contents.

5 Remove the top foam insert exposing the receiver housing

bottom end.

6 Set aside the third bagged accessory containing the AC power

cord.

7 Turn the receiver housing right side up, on its feet.
8 Remove the foam insert at the top of the receiver housing and

the front panel foam rails protecting the protruding antenna
cables. Cables must remain properly stowed in the appropriate
front panel cable ports.

9 En sure t hat you do not turn t he r ea r pa nel DC pow er swi tch ON .

This is unnecessary and drains the battery.

10 Open the three bagged accessories and verify that the

contents include the power cord, the power cord retainer and
bracket, the related screws and washer, the SDLC terminator,
the cable adapter assembly (DB26HD male to DB9 male), and
the documentation.

11 Inspect the air filter on the bottom of the receiver housing.
12 Save all packing materials in case the receiver housing must be

returned.

S ETUP

Unpacking the Receiver

To unpack the receiver (refer to Drawing 3, Sheet 2 of 2)

1 Cut the white label using a knife (with the receiver’s serial

2 Pull the container flap open.
3 Remove the receiver from the container.
4 Save all packing material in case the receiver must be returned.

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number) that holds the flap shut, along the edge of the
container.

2-3

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SDLC terminator

free SDLC port

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Receiver Housing Configuration

To ready the 90479-A/B/C receiver housing for operation

1 Set the receiver housing in the area where it will be operated.

Choose a location that provides good ventilation, and ensure
that air flow for the air intake (bottom) and exhaust (rear top)
are not obstructed.

2 Verify that the receiver housing is configured for the correct AC

line voltage by inspecting the line voltage indicator on the rear
panel power entry module. The correct setting for input
voltages from 100 to 120 VAC is 115. The correct setting for
input voltages from 220 to 240 VAC is 230. If the line voltage
setting is incorrect, refer to AC Mains Voltage Selection on
page 2-8.

3 Attach the AC power cord and install the power cord retainer

(follow the instructions).

4 Cable the SDLC connections (for illustrations of other SDLC

connections, refer to SDLC Configurations on page 2-6).

a To configure SDLC connections for a typical eight-receiver

housing, connect one end of the SDLC cable to the free SDLC
port on the rear of the unit. Ensure that the SDLC terminator
is in place.

S ETUP

Note:

An SDLC cable is not provided with the receiver housing. To
connect to the central monitor, contact Spacelabs Healthcare
customer service for instructions.

Figure 2-1 Rear panel

b When finished routing the SDLC cables, position the receiver

housing in its permanent location.

5 Connect the free end of the 9-pin SDLC cable to the SDLC port

on the central monitor or module housing.

6 Connect the diversity antenna down leads to the two antenna

ports on the rear panel.

2-4

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