3000 series eurocard switchers.ib.rev21...title microsoft word - 3000 series eurocard...
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3000 series eurocard switchers.ib.rev21.doc Page 1 of 36 16/10/2007
Designed and manufactured in Australia IRT can be found on the Internet at: http://www.irtelectronics.com
IRT Eurocard 3000 Series Switchers & Controllers
Including Switcher Types
AVS-3010 & 3011 5 x 1 Video switchers AAS-3020 & 3021 5 x 1 Stereo audio switchers DDS-3030 & 3031 5 x 1 RS-422 switcher
DVS-3040 & 3041 5 x 1 Serial digital switchers
& Controllers CP-700 5 x 1 Remote control panel CPS-3050 5 x 1 Local control panel CDC-3060 Logic control module CPS-9000 & 9001 5 x 1 Remote control panels
& Tally Panel
TPS-3010 5 x LED tally panel
I R T Electronics Pty Ltd A.B.N. 35 000 832 575 26 Hotham Parade, ARTARMON N.S.W. 2064 AUSTRALIA National: Phone: (02) 9439 3744 Fax: (02) 9439 7439 International: +61 2 9439 3744 +61 2 9439 7439 Email: [email protected] Web: www.irtelectronics.com
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3000 series eurocard switchers.ib.rev21.doc Page 2 of 36 16/10/2007
IRT Eurocard 3000 Series Switchers & Controllers
Instruction Book
Table of Contents Section Page General description 3 Technical specifications 6 Circuit description 10
Power supplies 10 Switching logic 12 Sync path 12 Signal path 13 Internal adjustments 15
Operational safety 16 Configuration 16
Interconnecting modules 16 Switch pulses - internal & external sync. 16 Power on reset 17 DDS-3030 & DDS-3031 Input impedance 17 CDC-3060 Logic control module 20
RS232 Control codes & connector 22 Link settings 23 Wire per crosspoint operation 24 Location of links & user settings 27
Pre-installation 29 Installation 30
CPS-3050 Local control 30 TPS-3010 Local tally panel 30 Front panel layouts 31 Rear connection diagrams 32
Operation 34 CDC-3060 Cyclic control 34
Maintenance & storage 35 Warranty & service 35
Equipment return 35 Drawing index 36
This instruction book applies to units later than S/N 9500000. IRT C
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3000 series eurocard switchers.ib.rev21.doc Page 3 of 36 16/10/2007
General description The 3000 series switchers are a family of “smart” switchers in Eurocard format, which may be linked and configured by the user to cover a wide range of switching and monitoring functions. By combining modules, the user is able to easily assemble switchers ranging from a basic 5 x 1 to the equivalent of a small router, encompassing analogue and digital signals in multiple levels. These may be controlled with multiple local or remote control panels or under computer control. The devices in the range may be classified into two groups, one being the Switcher Group and the other the Control Group. The Switcher Group comprises: The Control Group comprises:
AVS-3010 5 x 1 Video switcher CP-700 5 x 1 Remote control panel AVS-3011 5 x 1 Video switcher CPS-3050 5 x 1 Local control panel AAS-3020 5 x 1 Stereo audio switcher CDC-3060 Logic control module AAS-3021 5 x 1 Stereo audio switcher CDC-3061 Priority control module DDS-3030 5 x 1 RS-422/RS-485 switcher CDC-3062 Priority control module DDS-3031 5 x 1 RS-422/RS-485 switcher CPS-9000 5 x 1 Remote control panel DVS-3040 5 x 1 Serial digital switcher CPS-9001 5 x 1 Remote control panel DVS-3041 5 x 1 Serial digital switcher CPS-1050 10 x 1 Remote control panel CPS-1052 20 button remote control panel
The AVS-3011, AAS-3021, DDS-3031, DVS-3041 and CPS-9001 supersede the AVS-3010, AAS-3020, DDS-3030, DVS-3040 and CPS-9000 respectively. Details of both types are shown for those combining the new versions with the older types in existing systems. Modules in the switcher group are normally supplied in slave format, but may optionally be fitted with, a CPS-3050 local control panel. Alternatively, a tally panel (TPS-3010) may be fitted to the front of any switcher to give visual switcher status information where the switcher is remotely controlled. On board links allow several switchers to be joined for 10 x1, 15 x 1 or 20 x 1 operation. Additionally, the switchers may be slaved to operate in conjunction with other 3000 series switchers for multilevel analogue video, stereo audio, digital video and RS422 or similar control signals. This makes the switchers ideally suited to situations where a mixture of analogue and digital signals is present. Control options include local or remote pushbuttons or RS232 serial control. Multiple control panels are permissible and each panel reflects the current switcher tally status. The control panel types CPS-1050 and CPS-1052 and the priority controller types CDC-3061 & CDC-3062 are described in separate manuals. The modules may be mounted in standard IRT Eurocard frames alongside other IRT Eurocard modules for distribution and signal conditioning. Frame and PSU combinations are available in both 1 RU and 3 RU sizes for two to twelve modules. Power supply options include AC and DC inputs over a wide range of voltages. Redundant power supplies on board are supported by dual redundant supplies in the 3 RU frame and PSU combinations. Features:
• May be cascaded to 20 x 1.
• Multiple levels available through combining modules in series under common control.
• Internal or external sync.
• Local and / or remote control options with multiple control panels.
• RS232 & sequential control options.
• May be mounted in same frame as other IRT Eurocards including VDA’s, ADA’s, detectors and processors.
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3000 series eurocard switchers.ib.rev21.doc Page 4 of 36 16/10/2007
Features of individual modules: TPS-3010: Local tally panel. Fits any switcher in the series. Equipped with 5 tally LED’s. Provides visual
indication of switcher status when switcher is remotely controlled. AVS-3010: Analogue video switch with looping inputs. Internal vertical interval switching or external
synchronisation for use in RGB, YUV & YC applications. AVS-3011: As for AVS-3010, but with wire per crosspoint input patching and improved static immunity. AAS-3020: Stereo analogue audio switch with looping inputs. AAS-3021: As for AAS-3021, but with wire per crosspoint input patching and improved static immunity. DDS-3030: RS422 / RS485 Serial bi-directional data switch. Only the selected bi-directional path is active at any
time with unselected data outputs reverting to tri-state. This allows switchers to be used in multiple combinations (subject to logical conflicts).
DDS-3031: As for DDS-3031, but with wire per crosspoint input patching and improved static immunity. DVS-3040: Serial digital switch. Primarily designed for 270 Mbit serial digital video with input equalisation to 50
metres. As no re-clocking is provided on this model, it may also be used for a variety of serial digital signals over a wide range of data rates.
DVS-3041: As for DVS-3040, but with automatic input equalisation to over 200 metres, automatic muting of unused inputs, wire per crosspoint input patching and improved static immunity.
CPS-3050: Local control switch panel. Fits any of the switchers in the series. Equipped with 5 push buttons with
tally LED’s and inserts for labels. In addition to providing local control and tally for the switcher to which it is fitted this panel allows the switcher to act as a master for controlling other switchers.
CDC-3061: Priority logic control module. Integrates the functions of video detectors, priority encoder, local
control and remote interface for controlling 3000 series switchers in PIE and other path switching applications. May be used with either video or audio or both types of signals. Allows control of a traditional Main - Standby - Local arrangement.
CDC-3062: Priority logic control module. Similar to the CDC-3061, but with three levels of detection and encoding for Main - Reserve - Standby - Local operation and greater remote control tally and interfacing flexibility.
CPS-9000: Remote control panel. Controls one or more switchers in the series. Equipped with 5 push buttons
with tally LED’s and inserts for labels. Equipped with on board addressing to designate which bank of 5 is controlled thus allowing formation of 10 x 1 and larger switchers. Multiple panels may be used with tally to each panel. May also be used as a switch data encoder for use with the CDC-3060 for remote control over serial data links or for interfacing to external control systems.
CPS-9001: As for CPS-9000, but with improved static immunity. Wire per crosspoint connector provided for external interfacing.
CPS-1050: Remote control panel - 1 RU. Controls one or more switchers in the series. Equipped with 10 push
buttons with tally LED’s and inserts for labels. Controls two 3000 series switchers for 10 x 1 operation. Multiple panels may be used with tally to each panel. Wire per crosspoint and tally connectors are provided for external interfacing.
CPS-1052: Remote control panel - 1 RU. Controls one or more switchers in the series. Equipped with two banks
of 10 push buttons with tally LED’s and inserts for labels. Controls four 3000 series switchers for 20 x 1 operation or for 10 x 1 audio breakaway or as two separate 10 x 1 switchers. Multiple panels may be used with tally to each panel. Wire per crosspoint and tally connectors are provided for external interfacing.
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3000 series eurocard switchers.ib.rev21.doc Page 5 of 36 16/10/2007
CDC-3060: Logic control module. Performs a variety of functions according to the users (link selectable) choice. May be used directly or in conjunction with local or remote control switch panels. RS232 control address bits allow one computer serial port to control up to four CDC-3060’s with different addresses. Current output status is indicated on the return RS232 line for tally purposes. Sequential (cyclic) control. Switches between selected range of inputs with manual interrupt and user selectable timing. The RS232 and sequential functions are non-exclusive allowing sequential control via RS232 if required. For serial remote control without a computer, the CDC-3060 is set up with a remote panel to encode pushbutton data to RS232 for reception by another CDC-3060, which decodes the data and returns tally to the originating remote panel.
Applications:
• Path switching in transmission systems.
• Input switching in edit suites.
• Master control switching in small systems.
• PIE path and monitoring switching with automatic / manual control.
• YUV & RGB synchronised switching.
• Simultaneous digital path and analogue monitoring switching.
• Computer controlled switching.
• Remote site switching and monitoring via modem.
• Automatic sequential switching with override for path monitoring.
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3000 series eurocard switchers.ib.rev21.doc Page 6 of 36 16/10/2007
Technical specifications AVS-3010 & 3011: 5 x 1 analogue video switchers. Video inputs: Number 5. Type DC coupled. Impedance Loop through. Connectors BNC. Video outputs: Type DC coupled. Number 1. Impedance 75 Ω. Connectors BNC. Performance: Switching During vertical interval. Timing may be derived from either the current
output signal or synchronised to another switcher. Gain Unity (adjustable by internal pre-set). Frequency response ±0.1 dB to 20 MHz. ±0.5 dB to 30 MHz. Differential gain <0.1% at 4.43 MHz. Differential phase <0.1° at 4.43 MHz. Crosstalk between inputs >65 dB at 4.43 MHz. >60 dB at 10 MHz. Power consumption <100 mA.
AAS-3020 & 3021: 5 x 1 analogue stereo audio switchers. Audio inputs: Number 5 x 2 (5 stereo). Type Tranformerless, bridging DC coupled. Impedance > 10 KΩ. Connectors Plugable screw block connectors. Max. input level +24 dBu. Input CMR > 40 dB @ 55 Hz. Audio outputs: Type Transformerless, balanced DC coupled. Number 1 x 2 (left and right). Impedance < 44 Ω. Connectors Plugable screw block connectors. Max. output level +24 dBu into 600 Ω. DC on output < ±20 mV. Performance: Switching Within 25 ms. Timing may be synchronised to another switcher. Gain ±3 dB (adjustable by internal pre-set). Frequency response ±0.5 dB for 20 Hz to 20 KHz. Harmonic distortion < 0.01% 20 Hz to 20 KHz at +20 dBu output. Noise -90 dB, Ref. +20 dBu 20 Hz to 20 KHz. Crosstalk left/right -70 dB @ 15 KHz with measured input terminated. Phase left/right ±0.2° to 20 KHz. Power consumption <200 mA (+ 24 dBu, outputs loaded in 600 Ω).
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3000 series eurocard switchers.ib.rev21.doc Page 7 of 36 16/10/2007
DDS-3030 & 3031: 5 x 1 RS422 / RS485 bi-directional serial data switcher. Data inputs: Number 6. (One selected path active - other 4 ‘don’t care’.) Type RS422 / RS485. Impedance >10 KΩ. Terminated with optional 330 Ω resistor. Connectors Plug in 5 pin screw terminal block. Threshold level 200 mV differential for a common mode of -7 to +12 V. Data outputs: Type RS422 / RS485. Number 6. (One selected path active - other 4 tri-state.) Connectors Plug in 5 pin screw terminal block. Level 5 V unloaded (differential). >2 V (50 Ω load) (differential). Performance: Switching Within 25 ms. Timing may be synchronised to another switcher. Maximum data rate >2 Mbps. Power consumption <80 mA. DVS-3040 & 3041: 5 x 1 serial digital video switchers. Video inputs: Number 5. Type DVS-3040 Automatic equalisation to 50 metres on each input. DVS-3041 Automatic equalisation to >200 metres on each input. Automatic muting
of inputs with no signal. Impedance 75 Ω. Connectors BNC. Video outputs: Type 1 x 800 mV ±10% into 75 Ω. 1 x ECL monitoring output. Connectors BNC. Performance: Switching Timing is either free running at ≈25 ms or may be synchronised to
another switcher. Return loss >15 dB 5 MHz to 270 MHz. DC offset 0 V ±0.5 V. Rise time between 0.75 and 1.5 ns. Power consumption <180 mA.
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3000 series eurocard switchers.ib.rev21.doc Page 8 of 36 16/10/2007
CDC-3060: programmed data controller for 3000 series switchers. RS232 input / output: Number 1. Type 9600 baud. (8 bit word, no parity, 1 stop) Connectors 9 pin ‘D’. Format 8 bit data word comprising: 1 command bit 2 address bits 5 crosspoint number bits - BCD encoded. Switcher control input/output: Type 5 bit BCD coded parallel TTL level. Number 1. Connector Plug in 10 pin HE14 dual IDC. Performance: Switching Determined by type of switchers connected. Power consumption <50 mA.
CP-700: 5 x 1 remote pushbutton panel for wire per crosspoint switchers. Type Momentary action with removable clear cap for legend insert. Red LED
indicator in one corner. Number 5 Control connector 9 pin 'D'. Switching Dumb contact to ground only. Performance is entirely dependent on
connected switchers. Power consumption Approximately 10 mA per active LED derived from connected switcher if
tally enabled. Dimensions 128 mm x 30 mm front panel Depth 30 mm clearance including connectors. Mechanical May be mounted in a standard IRT Eurocard frame if required, but does
not connect to motherboard. Mounting hole - with front panel 114 mm x 28 mm. Mounting hole - switches only 81 mm x 17 mm.
CPS-9000 & 9001: 5 x 1 remote pushbutton panel for 3000 series switchers. Type Momentary action with removable clear cap for legend insert. Red LED
indicator in one corner. Number 5 Control inputs/outputs: Type 5 bit BCD coded parallel TTL level. Number 1 “input” & 1 “output”. Connectors Plug in 10 pin HE14 dual IDC. Switching Determined by type of switchers connected; but not more than 25 ms.
Timing of connected switchers may be synchronised to a master switcher. Power consumption Derived from connected switcher. Up to 4 x CP-9000 or 9001’s may be connected to one switcher (or
CDC-3060) without exceeding power rating specified for switcher. Dimensions 128 mm x 30 mm front panel. Depth 60 mm front panel to end of PCB. 80 mm clearance including connectors. Mechanical May be mounted in a standard IRT Eurocard frame if required, but does
not connect to motherboard. Mounting hole - with front panel 114 mm x 28 mm. Mounting hole - switches only 81 mm x 17 mm.
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3000 series eurocard switchers.ib.rev21.doc Page 9 of 36 16/10/2007
Common specifications
(Common to all modules in series except control panels.) Control inputs/outputs: Type 5 bit BCD coded parallel TTL level (or individual grounding contacts –
AVS-3011, AAS-3021, DDS-3031 and DVS-3041 only). Number 1 “input” & 1 “output”. Connectors Plug in 10 pin HE14 dual IDC. Power requirements: 28 Vac CT (14-0-14) or ± 16 Vdc. General: Temperature range 0 - 50° C ambient Mechanical Suitable for mounting in IRT 19" rack chassis types FRU-3000, FRU-
3001 & FRU-1030 with input output and power connections on the rear panel
Finish: Front panel Grey enamel, silk-screened black lettering & red IRT logo Rear assembly Detachable silk-screened PCB with direct mount connectors to Eurocard
and external signals Dimensions 6 HP x 3 U x 220 mm IRT Eurocard Supplied accessories Rear connector assembly including matching connectors for control
inputs & outputs.
Due to our policy of continuing development, these specifications are subject to change without notice. Accessories available:- FRU-3000 Eurocard module mounting frame Provides mounting for up to 12 IRT Eurocards and
one PSU-3000 Dual AC power supply side by side in 134 mm of standard rack space (3 Rack Units).
FRU-3001 Eurocard module mounting frame Provides mounting for up to 10 IRT Eurocards and
two PSU-3001 Dual AC power supply side by side in 134 mm of standard rack space (3 Rack Units).
FRU-1030 1 RU chassis / PSU The FRU-1030 can be fitted with either one or two
Eurocards in a horizontal side by side format. A single AC power supply with switched multi-voltage input selector is included to power the cards. Fitted with Eurocard guide rails for easy maintenance.
TME-6 Eurocard extender board. Control connector assembly tool For ease of making interconnecting leads between
modules or to remote control panels. A range of tools is available from Farnell
Components and RS Components for connecting ribbon cable to the HE14 IDC type remote control connectors.
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3000 series eurocard switchers.ib.rev21.doc Page 10 of 36 16/10/2007
Circuit description The 3000 series of switchers and controllers share a common logic control system. This system is therefore described separately and applies to all modules in the group unless otherwise indicated. The power supply system is similar in each module and is therefore described separately. Power supplies: CPS-9000 & CPS-9001: The CPS-9000 / 9001 does not have its own power supply, but uses either +10 Vdc or +12 Vdc power from the first connected switcher through the remote control logic connectors PL 4 and PL 5. Pins 1A on both connectors are joined and are the power supply pins for the panel. This is to allow the power supply to continue to the next control panel where more than one panel is required. The +12 Vdc input (the only supply required) is reduced to +5 Vdc by a three terminal regulator. A number of 10 µF and 100 nF tantalum tag capacitors are located at key points in the circuit to suppress interference on the DC rails. Should any of these fail they should be replaced by high quality tantalum tag capacitors of at least 16 Vdc rating. Other modules: Input power to other modules may be fed by a number of means.
1. One or two 14 - 0 - 14 Vac supplies via connections on the 64 pin DIN rear connector of the module. (Used when module is mounted in FRU-3000 chassis fitted with on PSU-3000 or FRU-3001 chassis fitted with two PSU-3001’s.)
2. Two ±16 Vdc supplies via connections on the 64 pin DIN rear connector of the module. (Used when module is mounted in FRU-3001 chassis fitted with one or two PT-748A PSU’s.)
3. One 14 - 0 - 14 Vac supply and one ±16 Vdc supply via connections on the 64 pin DIN rear connector of the module. (Used when module is mounted in a FRU-3001 chassis fitted with 1 x PSU-3001 PSU and 1 x PT-748A PSU.)
4. A single 14 - 0 - 14 Vac supply connected to the 3 pin male connector on the module side of the rear assembly. (Used when module is mounted in FRU-1030 chassis.)
The input power is isolated by fusible resistors F 1 to F 4. Should these fail, they should be only replaced by a similar type of the same value or protection of the common power supply will be compromised. If an AC supply is provided, the isolated AC is full wave rectified by diodes D 1 to D4 and D5 to D 8 to provide a raw DC voltage of approximately 20 V at filter capacitors C 17 and C 18. The actual voltage will vary depending on the type of frame, loading of PSU by other modules and the local mains supply voltage. If a DC supply is provided, the isolated DC passes through the diodes D 1 to D4 and D5 to D 8, which provide protection against accidental reverse polarity connection of the DC supply. Where a DC supply is used, the input voltage must be at least ±15 Vdc under all conditions to ensure sufficient margin for the proper operation of the following voltage regulators and losses in the input fusible resistors and diodes. AVS-3010 & AVS-3011: (See diagrams 803614 & 804070 sheet 1.) The raw DC power is fed to three terminal regulator IC’s which provide ±10 Vdc rails for the video circuits. The +10 Vdc is also supplied to the remote logic connector PL 4 pin 1 via a current limiting resistor R 25 for use by control panels. The +10 Vdc rail is further connected to another three terminal regulator to provide the +5 Vdc required by the logic control circuits. A number of 10 µF tantalum tag capacitors are located at key points in the circuit to suppress interference on the DC rails. Should any of these fail they should be replaced by high quality tantalum tag capacitors of at least 16 Vdc rating.
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3000 series eurocard switchers.ib.rev21.doc Page 11 of 36 16/10/2007
AAS-3020 & AAS-3021: (See diagrams 803754 & 804115 sheet 2.) The raw DC power is fed to three terminal regulator IC’s which provide ±12 Vdc rails for the audio circuits. The +12 Vdc is also supplied to the remote logic connector PL 4 pin 1 via a current limiting resistor R 34 for use by control panels. The 12 Vdc rails are further connected to two more three terminal regulator to provide the ±5 Vdc. The +5 Vdc is required by the logic control circuits and ±5 Vdc for the audio matrix switching IC’s. A number of 10 µF tantalum tag capacitors are located at key points in the circuit to suppress interference on the DC rails. Should any of these fail they should be replaced by high quality tantalum tag capacitors of at least 16 Vdc rating. DDS-3030 & DDS-3031: (See diagrams 803763 & 804200 sheet 1.) The raw DC power is fed to a three terminal regulator IC, which provides a +12 Vdc rail the remote logic connector PL 4 pin 1 via a current limiting resistor R 23 for use by control panels. The remainder of the circuit requires a +5 Vdc rail and to decrease power consumption a switch mode power supply is used. This is fed from the raw ± DC power via series ballast resistors R 7 & R 8 and a filter network comprising inductors L 1 & L 2 and capacitors B 8, 9, 10 & 11. This prevents any interference generated by the action of the switch mode regulator from passing back to the power input rails and thus to other modules. Power is drawn equally from the two DC rails in order to ensure that a balanced current is drawn from the main supply. A Zener diode ZD 1 is connected between the +ve and -ve supplies following R 7 & R 8 to ensure that the maximum input voltage of the switch mode regulator is not exceeded when a higher than normal raw DC voltage is presented at the output of the rectifiers. A number of 10 µF tantalum tag capacitors are located at key points in the circuit to suppress interference on the DC rails. Should any of these fail they should be replaced by high quality tantalum tag capacitors of at least 16 Vdc rating. DVS-3040 & DVS 3041: (See diagrams 803662 & 804110 sheet 1.) The same configuration is used as for the DDS-3030. Some component designations may differ -- see circuit diagram for details. CDC-3060: (See diagram 803798 sheet 1.) This module requires only a low current +5 Vdc supply for the logic circuit and +12 Vdc for supplying remote control panels. The description as given in Other modules applies except that the components for generating the -ve DC are omitted. Diodes D 17, 18, 19 & 20 provide full wave rectified DC to filter capacitor C 9 and thence to a +12 V three terminal regulator U 4 and also, via a ballast resistor R 2, to a +5 V three terminal regulator U 3. Power indicator LED’s: Modules have a green LED on the front panel to indicate presence of DC power in the module. This LED is supplied from the +5 Vdc regulated supply rail. Modules with local control buttons (CPS-3050) or local tally panel (TPS-3010) are not fitted with LD 1 -- DC power indicator LED.
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Switching Logic: Control logic for each switcher module is performed by a Programmable Logic Array (PLA) which has been programmed for the required operations. This component will only function correctly when loaded with the correct program and is therefore only available through IRT. Each module of the switcher group has two control connectors on its rear assembly. They are labelled PL 4 and PL 5. For descriptive purposes, PL 4 is called the “input” connector and PL 5 the “output” connector. The pins on these connectors have the following functions:
PL 4 PL 5 1A +12 Vdc NC 1B Ground Ground 2A Data 4 Data 4 2B Data 3 Data 3 3A Data 2 Data 2 3B Data 1 Data 1 4A Data 0 Data 0 4B Switch pulse in Switch pulse out 5A Busy out Busy in 5B Unlatch in Unlatch out
The CPS-9000 / 9001 remote control panel also has PL 4 and PL 5 but Pins 1A on both connectors are joined and are the power supply pins for the panel. This is to allow the power supply to continue to the next control panel where more than one panel is required. This is necessary, as the CPS-9000 / 9001 does not have its own power supply, but derives its power from the first connected switcher. The CDC-3060 logic control module only has a PL 4. The 5 bit codes on Pins 2A to 4A represent the input selected. This code is in BCD (Binary Coded Decimal) where the Data 0 to 3 represent the binary numbers 0 to 9 (Inputs 1 to 10 if Data 4 is 0 or Inputs 11 to 20 if Data 4 is 1). The unlatch out signal is asserted by a switcher if any of its front panel switches is operated or if its unlatch in signal is asserted. The presence of an unlatch in signal causes any switcher to release control of the data lines (if it had control of them). A switcher signals that it has control of the data lines by asserting busy out. Busy out also ripples busy in. The operation of a push-button ripples unlatch to modules farther down the chain, causing any of them with control of the bus to release it, and in so doing clear the busy line. As soon as the requesting module sees its busy in line clear, it takes control of the bus and asserts its busy out. The busy out signal then ripples up the chain causing any other modules release control (if they had it). Sync path: The switchers may be operated in either a local or remote sync mode in order to allow simultaneous switching of different signals in multilevel applications. This implies that the matrix will not switch until a sync pulse is received. When this is not provided externally, a local sync needs to be provided. The AVS-3010 / 3011 provides this sync from the video’s vertical pulse (see AVS-3010 sync path for details). All other modules generate a local sync by means of a free running oscillator followed by a monostable (AAS-3020, AAS-3021, DDS-3030 & DDS-3031 -- U 10, DVS-3040 & DVS-3041 -- U 8). This provides pulses approximately every 25 ms. The “localsync” signal is passed to the PLA via link LK 4, which allows a choice of internal or external sync to the switcher logic. The chosen sync is echoed to “vertout” which is available on the PL 5 remote connector for slaving other switchers. See Configuration section for details.
1B 2B 3B 4B 5B
1A 2A 3A 4A 5A
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3000 series eurocard switchers.ib.rev21.doc Page 13 of 36 16/10/2007
Signal path: AVS-3010 & AVS-3011: Analogue video. Video path: (See diagrams 803614 & 804070 sheet 2) The incoming video signal on each of inputs 1 - 5 is connected to two BNC connectors on the rear assembly to provide a loop through capability. One of these terminals must be terminated in 75 Ω either via a termination plug or via other equipment. Inputs 1 - 5 are terminated in 10 KΩ in order to reduce noise from unused inputs. Cascade input PL3 (SMA connector) is terminated in 75Ω. The inputs are then supplied to a pair of 4 x 1 video switch matrix IC’s U 1 & U 2 which are configured to operate as a single 8 x 1 matrix. The two unused inputs are terminated in 75Ω to reduce noise. The matrix is addressed by data lines a 0, a 1, a 2 & /a 2 produced by the PLA logic controller. This allows selection of either no output or output from one only of the four inputs to each of U 1 & U 2. Thus when U 2 is active no output is selected from U 1 and vice versa. The outputs of the two halves of the matrix are mixed and then proceed to the output via U 3 which acts as a buffer amplifier with gain (RV 1) and frequency compensation (C 8). The output BNC connector is fed via a series resistor R 10, which provides the correct 75 Ω output source impedance. It should be noted that the video signal is DC coupled throughout. Sync path: (See diagrams 803614 & 804070 sheets 1 & 2.) The video output signal of U 3 buffer amplifier is AC coupled to an integrated sync detector IC U4 which provides a vertical output sync pulse from the video signal. If no vertical pulse is detected within approximately 25 ms U 4 will generate a pseudo vertical pulse. Thus, a sync pulse will be provided even when an input is selected which has no sync. As this default period is longer than the normal interval between vertical pulses the true vertical sync will prevail whenever it is present. The output of the sync detector is passed through two monostable s which provide an adjustable delay (RV 2) such that the output sync, “localvert”, is positioned to initiate switching on line 9 of the video signal. The “localvert” signal is passed to the PLA via link LK 4, which allows a choice of internal or external sync to the switcher logic. The chosen sync is echoed to “vertout” which is available on the PL 5 remote connector for slaving other switchers. See Configuration section for details. AAS-3020 & AAS-3021: Analogue audio. (See diagrams 803754 & 804115 sheet 1.) The audio signals for Left & Right channels are processed by identical circuits; the Left on the main PCB and the Right on a sub-board mounted over the Left channel section of the main PCB. Balanced inputs 1 - 5 are terminated with resistors R 1 to R 20 resulting in an input impedance greater than 10 KΩ. The signal is then buffered by amplifiers U 1 to U 5 and switched by analogue switch matrix IC’s U 6 & U7. The matrix is addressed by data lines A & B, and enable lines CE 1 & CE 2 produced by the PLA logic controller. This allows selection of either no output or output from one only of the input pairs to each of U 6 & U 7. Thus when U 6 is active no output is selected from U 7 and vice versa. The outputs of U 6 & U 7 are coupled in a low impedance mixing bus, which is available via J 4 for expanded operation. See configuration section for details. The mixing bus for the +ve and -ve signals is then buffered by U 8 with gain adjustment set by RV 1. The balanced output connector is fed via series resistors R 26 & R 27, which provide an approximate 22 Ω output source impedance. Note that the audio signal is DC coupled throughout.
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3000 series eurocard switchers.ib.rev21.doc Page 14 of 36 16/10/2007
DDS-3030 & DDS-3031: RS422/RS485 data. (See diagrams 803763 & 804200 sheet 1) The RS422/RS485 data lines are bi-directional, consisting of a send and receive pair. Thus, it is not strictly correct to speak of inputs and outputs for this switcher. The switcher in essence connects a common transmit / receive pair to one of five other receive / transmit pairs. For simplicity and commonality with other switchers in the series the common transmit / receive pair (SK 6 on the rear assembly) will be referred to as the output and the remaining five transmit / receive pairs as inputs 1 - 5. The best termination impedance for RS422/RS485 signals depends on many factors including data rate, cable type and length. The DDS-3030 & DDS-3031 have 300 Ω termination resistors on all receive lines which are connected via a wire link to allow users to change the impedance if required. The transmit and receive pairs for each input and the output connect to a line amplifier / receiver (U 1 to U 6) which has an enable facility for each pair. All “input” receive lines are connected in common to the “output” transmit amplifier. The “output” receive line is connected to all “input”: transmit amplifiers. The data signal lines A, B & C from the PLA controller are decoded by U 8 and hex inverter U 7 provides the correct enable signals to each amplifier / receiver. When an amplifier or receiver is not enabled it reverts to a “tri-state” output and so outputs can be connected in common. This capability is used internally for the receive lines from the “inputs” and externally on the transmit lines when configuring switchers larger than 5 x 1. See configuration section for details. DVS-3040 & DVS-3041: Digital video. (See diagrams 803662 & 804110 sheet 1.) Each incoming video line is terminated in 75 Ω and is AC coupled to an automatic cable equaliser IC (U 1 to U 5). The DVS-3041 equaliser is capable of recognising a complete loss of input signal and will mute its output when this occurs. This overcomes the problem of the equaliser output providing maximum gain to noise only signals, which would otherwise cause crosstalk in the adjacent channels and produce "sparkles" in the picture. The inputs are then switched using U 6 under control of three data lines (A, B & C) from the control PLA. Output IC U 7 provides amplification with the 75 Ω output impedance being set by the combination of the IC’s output source impedance R 18 & R20. A second 75 Ω output is provided by U 7 for monitoring or expansion purposes. When a DVS-3040 / 3041* is to be used for inputs greater than 1-5 two optional connectors PL 1 and PL 2 are installed on its motherboard. In addition, R 21 is moved to its alternative position so that expansion output PL 1 provides a DC coupled output. When a DVS-3041 (post serial number 0203001) is to be used for inputs greater than 1-5, see circuit diagram for modification instructions. Maximum expansion to 10x1 only recommended. The expansion input PL 2 is taken direct to the switching matrix as it does not require equalisation due to the short distance between modules. Note that this is a re-entrant form of switching and consequently there will be a slight increase jitter and delay. CDC-3060: Controller. All operation is under the direction of a microprocessor, which is loaded with a control program during manufacture. This part can only be obtained through IRT. For more information on this module, see configuration section. * denotes serial numbers pre 0203001.
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3000 series eurocard switchers.ib.rev21.doc Page 15 of 36 16/10/2007
Internal adjustments The following adjustable circuit elements are factory set and should not be adjusted unless a component has been changed. They are not 'operational' controls. Before adjusting any of these controls allow time for the module to reach temperature stability. AVS-3010 & AVS-3011:
C 8 Frequency response. RV 1 Video gain. RV 2 Vertical interval switching point delay adjust. Set to line 9.
AAS-3020 & AAS-3021:
RV 1 Main board Audio gain -- Right channel. RV 1 Sub-board Audio gain -- Left channel.
DDS-3030 & DDS-3031:
No adjustments. DVS-3040 & DVS-3041:
RV 1 Output gain. CP-700:
No adjustments. CPS-3050:
No adjustments. CPS-9000 & CPS-9001:
No adjustments. TPS-3010:
No adjustments.
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3000 series eurocard switchers.ib.rev21.doc Page 16 of 36 16/10/2007
Operational Safety:
WARNING
Operation of electronic equipment involves the use of voltages and currents that may be dangerous to human life. Note that under certain conditions dangerous potentials may exist in some circuits when power controls are in the OFF position. Maintenance personnel should observe all safety regulations. Do not make any adjustments inside equipment with power ON unless proper precautions are observed. All internal adjustments should only be made by suitably qualified personnel. All operational adjustments are available externally without the need for removing covers or use of extender cards.
Configuration Interconnecting modules: From the description given under circuit description -- control circuit the following rules for daisy chaining the modules can be deduced: I. Modules are looped by joining PL 5 (data out) on one module to PL 4 (data in) on the next. II. A CPS-9000 or CPS-9001 remote control panel must be powered by either:
(a) Connecting its PL 5 to PL 4 on a powered module (i.e. one of the switcher group or a CDC-3060 logic control module).
or (b) Connecting its PL 5 to PL 4 on another CPS-9000 that is configured as in (a).
III. If a CDC-3060 logic control module is used it must be the last link in the chain. I.e.. PL 4 of the CDC-3060 connects to PL 5 of the last switcher.
Switch pulses - internal & external sync.: Each of the switcher group has a free running switch pulse generator for executing a crosspoint change. The period is approximately 25 ms. Uniquely, the AVS-3010/3011 5 x 1 video switcher can synchronise its switch pulse generator so that transitions will occur in the vertical interval of the video signal that is currently selected. When a switcher group module is configured as Inputs 1-5 (using LK’s 1 & 2), it uses its own switch pulses. If configured for any other input range (e.g. Inputs 6-10), it defaults to using the switch pulses incoming on its PL 4 connector -- switch pulse in, and also passes these on to switch pulse out on its PL 5. When multiple AVS-3010/3011's are used as YUV switchers, you have a case where all are configured as Inputs 1-5 but only the switcher for Y can be synchronised. (The others have no recognisable syncs.) By changing LK 4 on the U and V switchers they can be forced to use the incoming switch pulses from the Y switcher. As the switch pulse signal is sent from the AVS-3010/3011 1 - 5 switcher only on its PL 5 connector, this must be the first switcher connected to the chain. Therefore, for YUV and YC signals the switchers may be connected in that order, but for RGB the connection order should be GBR if synchronised switching is to occur.
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3000 series eurocard switchers.ib.rev21.doc Page 17 of 36 16/10/2007
Power on reset: Power on reset is needed so that at power on only one switcher or control panel drives the buss. LK 3 on each of the Switcher Group or the CPS-9000 / 9001 remote control panel is used to select which unit is in control at power on. If LK 3B is not installed and the switcher/control panel is configured to be for Inputs 1-5 then at power on that unit will take control of the buss and select input 1. In the case of a multi-level set up, such as a 5 x 1 video with a 5 x 1 audio as a slave, all the slaves should have LK 3B installed. LK 3 has another function. If LK 3A is not installed then any CPS-3050 switcher panel installed on the front of the module will act as tally only -- the operation of any of its buttons will have no effect. This also applies to the CPS-9000 / 9001 remote control panel. DDS-3030 & DDS-3031 5 x 1 RS-422 switcher: -- input impedance. The rear assembly for this module provides input termination resistors on each input line. Note that this includes the “output” as this switcher is bi-directional. These 300 Ω resistors (R 1 to R 6) are connected via a wire link (TL 1 to TL 6 respectively) which may be cut if a different input impedance is required. To obtain the input impedance required a resistor should be fitted across the input terminals (marked “R”) of the plug-in screw connector block and the wire link cut. It is recommended that this method be used in preference to replacing the surface mount resistors on the rear assembly PCB as doing so is likely to cause damage to the PCB.
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3000 series eurocard switchers.ib.rev21.doc Page 18 of 36 16/10/2007
Switcher set ups larger than 5 x 1 10 x 1, 15 x 1 and 20 x 1 switchers can be made up of multiple switchers. In order to achieve this connections have to be made between modules for both control and signal purposes. In addition, links on each module need to be configured to set the address range for the module. These three operations are dealt with separately below. Control side: LK 1 and LK 2 on the switchers are used to assign the group of inputs that a module will switch. NOTE: Always have one at least one switcher configured as ‘Inputs 1-5’ otherwise there will be no switch pulses and consequently no switching action at all. Connector PL 5 (data out) on switcher 1 - 5 connects to PL 4 (data in) on switcher 6 - 10 and so on. Cables may be wired using the connectors provided or may be ordered from IRT using the following part numbers:
GDW-3010 150 mm cable for joining adjacent modules in 3 RU frame. GDW-3011 300 mm cable for joining modules in 1 RU frames.
Signal side: AVS-3010 & AVS-3011 5 x 1 Analogue video switchers: When the data buss value is outside the range of inputs for which the module is configured the module selects PL 3 (SMA connector) on its rear assembly as its input. Therefore, the module with the highest input range should have its output connector linked to PL 3 of the module with the next lower input range. This is accomplished using a short BNC to SMA linking cable. A 150 mm cable of this type may be ordered from IRT; this is of sufficient length to join together two adjacent modules fitted to a 3 RU frame. Please use part number GVW-3010. Thus, the output from the 1 - 5 switcher will be the only output left unconnected to another switcher and is the switched output for the complete switcher. Note that this is a re-entrant form of switching. For example inputs in the range 16 - 20 on a 20 x 1 configuration actually pass through four active modules, consequently being subjected to a slight increase in distortion and (being DC coupled switchers) DC offset. Positions PL 1 and PL 2 on the main board are not used.
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3000 series eurocard switchers.ib.rev21.doc Page 19 of 36 16/10/2007
AAS-3020 & AAS-3021 5 x 1 Stereo analogue audio switcher When the data buss value is outside the range of inputs for which the module is configured the module places its signal busses in a high impedance state. J 4L (on the motherboard) and J 4R (on the sub-board) are signal buss extender connectors. Therefore, by paralleling all the J 4L connectors on a group of switchers, and all the J 4R connectors, size expansion is achieved. Note that the J 4 connectors and matching plugs are not normally supplied with the switchers.
To order please use the following part numbers: J4 connector 1100-12-103-02 Matching plug 1300-103-426
Figure 8 shielded cable or two shielded cables of small diameter should be used for the link. For a 15 x 1 or 20 x 1 configuration it will be necessary to connect two wires into each connector on modules 2 and 3 respectively to extend the link as only one connector is provided on each module for each channel. For consistency with other switchers in the series, it is recommended that the output from the 1 - 5 switcher be taken as the output for the complete switcher. 3 RU frames installation: As these connections are made between the main module boards extreme care should be taken when inserting or removing these boards to ensure that they move in and out of the frame as a group. To assist in this regard a small linking plate is available which loops over the front panel retaining screws as an indicator of the modules in the group. These are available in 2, 3 and 4 module widths. To order please use part number PC803845 and indicate the number of modules to be linked.
For example: 3 only PC803845/ 4 would be an order for links for 3 only 20 x 1 (4 modules) switchers
In order to be able to slide the modules in and out of the frame it is necessary to route the inter-board wiring through the small gap between the boards rear connector and the top slider rail.
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3000 series eurocard switchers.ib.rev21.doc Page 20 of 36 16/10/2007
DVS-3040 & DVS-3011 5x 1 Serial digital switcher: When a DVS-3040/3041* is to be used for inputs greater than 1-5 two optional connectors PL 1 and PL 2 are installed on its motherboard. In addition, R 21 is moved to its alternative position. When the data buss value is outside the range of inputs for which the module is configured the module selects PL 2 (Expn In) on its motherboard as its input. Therefore, the module with the highest input range should have its PL 1 (Expn Out) connector linked to PL 2 of the module with the next lower input range. Thus, the output from the 1 - 5 switcher will be output for the complete switcher. Outputs from the 6 - 10, 11 - 15 or 16 - 20 switchers will only provide outputs of 6 - 20, 11 - 20 and 16 - 20 respectively. When an input outside this range is selected, no output will result. It is therefore recommended that these outputs not be used. Note that this is a re-entrant form of switching. For example, inputs in the range 16 - 20 on a 20 x 1 configuration actually pass through four active modules, consequently being subjected to a slight increase in jitter and delay. When a DVS-3041 (post serial number 0203001) is to be used for inputs greater than 1-5, see circuit diagram for modification instructions. Maximum expansion to 10x1 only recommended. * denotes serial numbers pre 0203001. 3 RU frames installation: See note above under AAS-3020/3021. DDS-3030 & DDS-3031 5 x 1 RS-422 switcher: When the data buss value is outside the range of inputs for which the module is configured all its 6 outputs are placed in the high impedance state. Therefore, signal expansion is achieved by paralleling SK 6 on every module. Note that TL 6 on every module but one should be cut to prevent double termination of the receive line. CDC-3060 Logic control module: The CDC-3060 may be used either as a stand-alone controller for a switcher (comprising one or more modules) or as an interface between the switcher and RS232 serial data control signals. RS232 link control: A CDC-3060 Logic control module is used to enable remote control of a switcher or group of switchers over an RS232 link. One CDC-3060 logic control module is required to be connected to the switcher(s) via its PL 4 control connector. This CDC-3060 should be configured to switcher program. The remote end of the RS232 link can be implemented with another CDC-3060 logic control module in conjunction with one or more CPS-9000 remote control panels. This CDC-3060 should be configured to control panel program. Alternately a computer or other intelligent logic can be use to generate the necessary RS232 control codes. See RS232 control codes & connector. General setup: Operation of the CDC-3060 is determined by a number of on board links. Before installing the board, these should be carefully checked according to the following operating configuration guidelines. Summary of links:
LK 1 Reserved LK 2 Reserved LK 3 Reserved LK 4 Program type b 0 LK 5 Program type b 1 LK 6 Address b 0 LK 7 Address b 1 LK 8 Loop LED enable
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3000 series eurocard switchers.ib.rev21.doc Page 21 of 36 16/10/2007
Program: The CDC-3060 has a microprocessor on board which can have four different operating programs loaded. Program selection is by links LK 4 (b 0) and LK 5 (b 1) as follows:
Program LK 5 -- b 1 LK 4 -- b 0 Switcher OUT OUT Control Panel OUT IN PR 3 IN OUT PR 4 IN IN
PR 3 & PR 4 are currently reserved for future use. Switcher program: The switcher program is used where the controller is to be connected to a switcher or group of switchers to actuate their function. In this mode the CDC-3060 may receive RS232 information and decode this to operate the switcher or it may itself generate a sequence of switcher control codes for cyclic operation. In this case PL 4 (data in/out) on the CDC-3060 rear assembly is connected to PL 5 (data out) on the last switcher to be controlled. Control panel program: This program is used when the CDC-3060 is required to generate RS232 incoming data from remote control panels or switchers. In this case PL 4 (data in/out) on the CDC-3060 rear assembly is connected to PL 5 (data out) on the last switcher or control panel in the chain. Addressing: The CDC-3060 may be set to one of four addresses, thus allowing up to four CDC-3060’s to be controlled by one RS232 signal. To use this facility the RS232 signal is looped from the DB 9 connector on one controller to the DB 9 connector on the next. The connectors should be wired so that:
The TXD line of the first CDC-3060 connects to the RXD line of the second CDC-3060 and so on. The RXD line of the first CDC-3060 connects to the TXD line of the computer. The TXD line of the last CDC-3060 connects to the RXD line of the computer. The DTR line is not connected between any CDC-3060’s. The Gnd line is not connected between any CDC-3060’s.
Note that the TXD & RXD references apply to the device itself NOT the connected equipment. Addressing is accomplished using links LK 6 and LK 7 as follows:
Address LK 7 -- b 1 LK 6 -- b 0 3 OUT OUT 2 OUT IN 1 IN OUT 0 IN IN
2 -- TXD 3 -- RXD 5 -- Gnd 8 -- DTR
2 -- TXD 3 -- RXD5 -- Gnd 8 -- DTR
2 -- TXD 3 -- RXD5 -- Gnd 8 -- DTR
2 -- TXD 3 -- RXD 5 -- Gnd 8 -- DTR
To computer
CDC-3060 1
CDC-30602
CDC-30603
CDC-3060 4
Address 0
Address 1
Address 2
Address 3
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3000 series eurocard switchers.ib.rev21.doc Page 22 of 36 16/10/2007
Cyclic control: In addition to the remote control capability, the local CDC-3060 logic control module also provides a “cycle inputs” function.. This may be activated locally or via the RS232 interface. In either case the controller must be pre-set with the start and end switcher crosspoint numbers and the time required to hold each input before stepping to the next in sequence. For example, the settings required may be: Start at input 2
End at input 7 Step every 5 seconds.
These settings are made using DIP switches SW 2, SW 1 and SW 3 respectively. Logically the Start setting should be less than the End setting. If Start is greater than or equal to End then the switcher will switch to Start and hold that input without cycling. In the following tables 0 represents closed and 1 represents open as marked on the switch assemblies. Switches SW 2 -- Start and SW 1 -- End: Switch number Input number
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 6 - 8 Not used
5 (b 4) 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 4 (b 3) 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 1 1 3 (b 2) 0 0 0 0 1 1 1 1 0 0 0 0 0 0 1 1 1 1 0 0 2 (b 1) 0 0 1 1 0 0 1 1 0 0 0 0 1 1 0 0 1 1 0 0 1 (b 0) 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1
Switch SW 3 -- Step time: Switch number Step duration. (Each unit ≈ 1.31 seconds)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 6 - 8 Not used
5 (b 4) 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 4 (b 3) 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 1 1 3 (b 2) 0 0 0 0 1 1 1 1 0 0 0 0 0 0 1 1 1 1 0 0 2 (b 1) 0 0 1 1 0 0 1 1 0 0 0 0 1 1 0 0 1 1 0 0 1 (b 0) 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1
Data LED enable: An LED (LD 2) is provided on the front panel which when enabled by inserting link LK 8 will indicate that the RS232 control loop is connected and running. RS232 Control codes & connector: When control of the CDC-3060 is via a computer or other RS232 source the following protocol must be used. Protocol RS232 -- 2 wire format. Type 9600 baud. (8 bit data word, no parity, 1 stop.) Format 8 bit data word comprising: 1 command bit (MSB) 2 address bits 5 crosspoint number bits - BCD encoded. Command bit: 0 = Poll switcher for tally status. 1 = Activate crosspoint. Switchers will switch to indicated input. Note that only one crosspoint can be active at any time. Activating a crosspoint will cancel all
other crosspoints.
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3000 series eurocard switchers.ib.rev21.doc Page 23 of 36 16/10/2007
Address bits: If the RS232 address bits are an exact match for those on the CDC-3060 then the CDC-3060 will execute the command to activate the crosspoint or respond with the switcher tally status depending on the state of the command bit. If the RS232 address bits do not match those on the CDC-3060 then the CDC-3060 will ignore the instruction as far as any attached switcher is concerned and will repeat the instruction on its TXD line for forwarding to any other CDC-3060’s connected. See Addressing for connection details.
Crosspoint number bits: These are binary coded decimal (BCD) format and correspond to the switcher input
number minus one. I.e.. Crosspoint 0 = Input 1. Bits 0 to 3 encode decimal 0 to 9 as standard binary numbers. Bit 4 encodes the decade. I.e. 0 to 9 or 10 to 19. Thus, the maximum allowable size for a switcher is 20 inputs (crosspoints 0 to 19).
Bit Number Input number
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 4 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 3 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 1 1 2 0 0 0 0 1 1 1 1 0 0 0 0 0 0 1 1 1 1 0 0 1 0 0 1 1 0 0 1 1 0 0 0 0 1 1 0 0 1 1 0 0
0 (LSB) 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 Special codes:
Hex Decimal Binary Action 1F 31 11111 Initiate cyclic program
RS232 Connector: The DB 9 connector on the rear assembly of the CDC-3060 is wired as follows:
Pin s1, 4, 6 & 9 Internal loop Pin 2 TXD I.e. output of CDC-3060. Pin 3 RXD I.e.. input to CDC-3060. Pin 5 GND Pin 8 DTR I.e. out from CDC-3060.
Link Settings: The following link settings apply to all switchers and controllers except as noted. See separate section for links CDC-3060. Links LK 1 & LK 2: These set the crosspoint range of the switcher or control panel as follows:
Inputs LK 1 LK 2 1 - 5 6 - 10 IN 11 - 15 IN 16 - 20 IN IN
Link LK 3: Local / remote control selection. If the switchers on the front of this unit are to be active, then install
LK 3A, otherwise install LK 3B. Link LK 4: AVS-3010/3011 only. Internal / external sync select.
LK 4A: Always use incoming switch pulses. LK 4B: Normal selection of switch pulses.
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3000 series eurocard switchers.ib.rev21.doc Page 24 of 36 16/10/2007
Wire per crosspoint operation In most cases, the BCD encoded remote control system offers the most satisfactory way of controlling one or more switchers. There are however, situations where it is necessary to provide a wire per crosspoint access for control and / or a line per crosspoint tally system. Both of these facilities may be made available on the 3000 series in a number of ways. 3011 Series: The AVS-3011, AAS-3021, DDS-3031 and DVS-3041 supersede the earlier models and provide an on board patching area for changing the switcher from BCD to WPX input using the PL 4 & PL 5 connectors. To change to WPX mode the WPX links should be installed on the PCB where indicated on the PCB overlay and all of the "Universal" links should be removed or cut. A momentary contact closure to ground on the relevant control input will now cause the switcher to operate in the same way as it would had the switch on the local control panel type CPS-3050 been depressed. Pin connections are as follows:
PL 4 PL 5 1A +12 Vdc out. N/C. 1B Ground. Ground. 2A Switch 5 contact. Switch 5 contact. 2B Switch 4 contact. Switch 4 contact. 3A Switch 3 contact. Switch 3 contact. 3B Switch 2 contact. Switch 2 contact. 4A Switch 1 contact. Switch 1 contact. 4B N/C. Vert. out 5A N/C. N/C. 5B N/C. N/C.
No complicated logic is required of a remote control to the switcher in this configuration and the CP-700 five-button remote control connector may be used to operate the switcher or a custom switch panel may be fabricated. If the CP-700 is used to operate the switcher the LED's for tally will be inoperative and the + Volts connection on the CP-700 should not be connected. The primary disadvantage of this method is that no tally is available on the switch lines. 3010 series: The 3000 series switchers initially provided WPX control by:
1. Direct connection to the switch contact and LED connections provided for use with a local control panel.
2. Connection by external BCD encoding. These are described below. Each switcher and the remote control panel is equipped with a 12 way in line connector at the front of the board for connecting to the switch panel. This connector carries signals for each switch contact and the LED tally indication from the switch control logic. Switch control lines are normally held high by 10 KΩ resistors in a resistor array. The switch action momentarily grounds this control line and this is the action that should be mimicked by an external control. Link LK 3 which determines the start-up defaults should be set to the ‘A’ position as the remote panel takes the place of the local switches. This will also connect the local earth reference to pin one of the multi-way connector for access by the remote switches. It is recommended that the 12-way connector be connected to a 15 pin ‘D’ connector (either normal or high density) and wired pin for pin leaving 3 pins unconnected. The ‘D’ connector may be mounted directly on the rear of the frame (in the case of the FR-722 or FR-722A) or on a blank rear plate covering an empty module space (in the case of the FR-700 or FR-748A). The matching 12-pin connector for the switcher is a Harwin part number M20-9821206 (top entry) or M20-9891206 (side entry). These should be available through your local Harwin stockist. If the 12-pin version is unavailable, a 20-pin type may be cut down to size. These are available through Farnell Components.
1B 2B 3B 4B 5B
1A 2A 3A 4A 5A
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3000 series eurocard switchers.ib.rev21.doc Page 25 of 36 16/10/2007
Pin numbering is as follows: Pin Signal
1. GND reference (LK 3A connected) 2. Switch 1 contact 3. Tally out 1 4. Switch 2 contact 5. Tally out 2 6. Switch 3 contact 7. Tally out 3 8. Switch 4 contact 9. Tally out 4 10. Switch 5 contact 11. Tally out 5 12. +5 Vdc 560 Ω sourced feed for tally LED’s.
Tally lines are pulled low when active and an indicating LED may be directly connected between the pin 12 current source and the tally line for each crosspoint. Where it is not convenient to connect directly to a switcher in the above manner, the same procedure may be followed using a CPS-9000 remote control panel connected to the switchers using the standard encoded remote control cables. In this case, the switch panel for the CPS-9000 should be removed and the wire per crosspoint control connected in its place. Hence, the CPS-9000 will act as a wire per crosspoint to BCD encoder for the connected switches. The CPS-9000 may be built into other equipment or fitted with a blank front panel and mounted in a standard Eurocard frame. The CPS-9001 remote control panel may be used in a similar fashion to the CPS-9000. However, if remote wire-per-crosspoint control is required without tally, this may be accomplished without accessing the front panel connector. A special connector is provided on the CPS-9001 for remote wire-per-crosspoint input. This is connected directly to the switch panel wiring. Connections are as follows:
PL 6 1A N/C. 1B Ground. 2A Switch 5 contact. 2B Switch 4 contact. 3A Switch 3 contact. 3B Switch 2 contact. 4A Switch 1 contact. 4B N/C. 5A N/C. 5B N/C.
1B 2B 3B 4B 5B
1A 2A 3A 4A 5A
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3000 series eurocard switchers.ib.rev21.doc Page 26 of 36 16/10/2007
External BCD encoding: The switching logic for the 3000 series is a binary sequence as explained under Switching Logic. Where wire per crosspoint style operation is required, the following simple method may be used to externally encode wire per crosspoint signals into the BCD format required by the switcher input.
Note that with this method, the Unlatch In signal is always present and therefore the switcher will not latch to momentary contact closures. The switches or relays must hold the contact as long as that crosspoint is required. When no input is crosspoint is selected crosspoint 1 will be active and so any delay between releasing one crosspoint and activating another will result in the switcher attempting to switch to input 1. This will have varying effects according to the type of switcher and so caution is advised. Analogue video. Because switching normally takes place only in sync with the vertical interval, the last crosspoint activated before the switching point will be the one chosen. Thus for example; a delay of 1 ms between selections will result in a 95% probability of correct switching and a 5% probability of one field of input 1 being switched between the two selections. Other types. Switching is under the control of an oscillator with pulses approximately every 25 ms. Thus the probability for a 1 ms delay would be 96% for correct switching and 4% for a 25 ms “bite” of the signal on input 1 being inserted. For audio signals, this would be heard as a “click”. For digital video signals the result would be a “flash” and For RS422 signals the result will be determined by the type of equipment connected and could result in almost any effect ranging from none to catastrophic. Particular care should therefore be exercised with these signals.
Data 0
Crosspoint 1
Crosspoint 2
Crosspoint 3
Crosspoint 4
Crosspoint 5
Data 1
Data 2
No connectionrequired.
Gnd
+12 VdcRegulator IC
Type78L05
Unlatch in+5 Vdc
PL 4Pin
1A
5B
1B
4A
3B
3A
All diodes type 1N4148 or equivalent.
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3000 series eurocard switchers.ib.rev21.doc Page 27 of 36 16/10/2007
Location of links & user settings The following location diagrams are not to scale and are intended only to assist in finding the location of links and other settings, which may need to be changed by the user during Configuration. Note: AVS-3010 PL 1 & PL 2 positions on board are deliberately unfilled and are not required by users.
Rear Assembly
F R O N T P A N E L
L K 4
L K 2
L K 1
PL 2 PL 1
RV 2 RV 1
C 8 L K 3
A B
L D 1 AVS-3010
Rear Assembly
F R O N T P A N E L
L K 2
L K 1
RV 1
L K 3
A B
L D 1 AAS-3020
L K 4
J 4
J 4
Channel 2 Sub-board
RV 1
Rear Assembly
F R O N T P A N E L
L K 2
L K 1
L K 3
A B
L D 5 DDS-3030
L K 4
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3000 series eurocard switchers.ib.rev21.doc Page 28 of 36 16/10/2007
Rear Assembly
F R O N T P A N E L
L K 2
L K 1
L K 3
A B
L D 1
DVS-3040
L K 4
PL 2 IN
PL 2 OUT
Rear Assembly
F R O N T P A N E L
L D 1 CDC-3060
LK 8
LK 6 LK 5
LK 7
LK 4 LK 3 LK 2 LK 1
8
65
7
4321
8
65
7
4321
8
65
7
4321
SW 1 SW 2 SW 3
L D 2
F R O N T P A N E L
L K 2
L K 1
LK3
A B
CPS-9000
PL 5 OUT
PL 4 IN
SW 1
SW 2
SW 3
SW 4
SW 5
PL 6 WPX
PL 6 WPX input on CPS-9001 only IR
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3000 series eurocard switchers.ib.rev21.doc Page 29 of 36 16/10/2007
Pre-installation: Handling: This equipment may contain or be connected to static sensitive devices and proper static free handling precautions should be observed. Where individual circuit cards are stored, they should be placed in antistatic bags. Proper antistatic procedures should be followed when inserting or removing cards from these bags. Power: AC mains supply: Ensure that operating voltage of unit and local supply voltage match and that correct rating
fuse is installed for local supply. DC supply: Ensure that the correct polarity is observed and that DC supply voltage is maintained within
the operating range specified. Earthing: The earth path is dependent on the type of frame selected. In every case particular care should be taken to ensure that the frame is connected to earth for safety reasons. See frame manual for details. Signal earth: For safety reasons a connection is made between signal earth and chassis earth. No attempt should be made to break this connection.
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3000 series eurocard switchers.ib.rev21.doc Page 30 of 36 16/10/2007
Installation Installation in frame or chassis: See details in separate manual for selected frame type. Before installing in frame, make any required link changes as detailed in the Configuration section. AVS-3010 & AVS-3011: Analogue Video Connections: If input termination is required then 75 Ω termination BNC plugs should be fitted to the loop through input sockets. AAS-3020 & AAS-3021: Audio Connections: If input termination is required then termination resistors should be fitted to the input sockets. Follow the polarity markings on the rear assembly or incorrect phasing will result. DDS-3030 & DDS-3031: RS422 / RS485 Data Connections: If a change in the input termination is required, consult the configuration section for details. Follow the connection markings on the rear assembly carefully or incorrect operation will result. As this switcher is bi-directional, extreme care must be taken in its application for configurations greater than 5 x 1 or conflicts will result. DVS-3040 & DVS-3041: Digital Video Connections: Input termination is fitted and should not be altered. No loop through facility is available. For applications requiring multiple destinations, a distribution amplifier such as the DVA-3002 should be used. CPS-3050 -- Local control: All switchers are sold with a plain front panel with DC power LED and printed with the switcher type number and IRT logo. The CPS-3050 provides the necessary components to add control buttons and tally to the front panel. Before fitting the CPS-3050, the original front panel and LD 1, LED DC indicator, must be removed. The CPS-3050 PCB should then be pressed carefully into place making sure that the pins on the CPS-3050 plug mate correctly with the socket on the main module PCB. The front plate is then fitted using the screws and spacers provided. For local switching, to take effect link LK 3 must be placed in the “A” position. See Configuration for details. TPS-3010 -- Local tally panel: All switchers are sold with a plain front panel with DC power LED and printed with the switcher type number and IRT logo. The TPS-3010 provides the necessary components to add tally LED indicators to the front panel. This is desirable when switchers are controlled only by remote connections that are distant from the switcher. This panel is especially useful when switchers are controlled via the CDC-3060 controller from a remote location using RS232 connections. The TPS-3010 provides confidence that a slave switcher has responded to the master command and can therefore greatly assist in finding faults in inter-module wiring. Before fitting the TPS-3010, the original front panel and LD 1, LED DC indicator, must be removed. The TPS-3010 PCB should then be pressed carefully into place making sure that the pins on the TPS-3010 plug mate correctly with the socket on the main module PCB. The front plate is then fitted using the screws and spacers provided.
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3000 series eurocard switchers.ib.rev21.doc Page 31 of 36 16/10/2007
DC
AVS-3011
N140
Front panel layouts The following, front panel drawings are not to scale. They are intended to show approximate relative positions of controls only.
Front panel layouts: AVS-3010 & 3011 AAS-3020 & 3021 DDS-3030 & 3031 DVS-3040 & 3041
Front panel layouts: CP-700 CPS-3050 CPS-9000
Front panel layout:CDC-3060
Front panel layout: TPS-3010
CPS-3050
N140
DATA
DC
CDC-3060
N140
5
4
3
2
1
TPS-3010
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3000 series eurocard switchers.ib.rev21.doc Page 32 of 36 16/10/2007
Rear connection diagrams The following rear assembly drawings are not to scale and are intended to show connection order only. DDS-3030: Input to switcher = “R” -- Output = “T”.
AAS-3020 & 3021 DDS-3030 & 3031AVS-3010 & 3011
OUTPUT
PL 3
3010
INPUT 2
INPUT 5
INPUT 4
INPUT 3
INPUT 1
PL 4 IN PL 5 OUT
3020
LEFT O/P
RIGHT O/P
1
2
3 4
5
PL 4 INPL 5 OUT
- + Gnd - + Gnd - + Gnd - + Gnd - + Gnd
- + Gnd
L I/P’s
- + Gnd - + Gnd - + Gnd - + Gnd - + Gnd
- + Gnd
R I/P’s
3030
PL 4 INPL 5 OUT
-
+
-
+
Gnd
R
T
-
+
-
+
Gnd
R 3 TL 3
R 1 TL 1
R
T
-
+
-
+
Gnd
R 5 TL 5
R
T
-
+
-
+
Gnd
R 2 TL 2
R
T
R 4 TL 4
R
T
-
+
-
+
Gnd
R O/P TL-O/P
R
T
-
+
-
+
Gnd
1 2
3 4
5 O/P
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3000 series eurocard switchers.ib.rev21.doc Page 33 of 36 16/10/2007
PL4 & PL5 Pin Positions
DVS-3040 & 3041 CDC-3060
OUTPUT
3040
INPUTS
1
2
3
4
5
MONITOR
PL 4 INPL 5 OUT
J2
3060
PL 4 IN
1B 2B 3B 4B 5B
1A 2A 3A 4A 5A
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3000 series eurocard switchers.ib.rev21.doc Page 34 of 36 16/10/2007
Operation CDC-3060: Cyclic control. The CDC-3060 will perform automatic cycling of inputs of selected switchers on demand. This can be performed at any time and will continue until a stop command is given by local, remote or RS232 control. The first and last inputs between which the switcher will cycle are set by switches on the CDC-3060. See Configuration section for details. To Start cycling: Press any button on a local or remote control panel for more than 2 seconds.
or Send code 1F via RS232 link. If the button pressed is outside the range set for cycling then the switcher will switch to that input when the button is pressed and when released after two seconds will progress to Start input and continue cycling from that point.
To Stop cycling: Press any button on a local or remote control panel for less than 2 seconds. or Send any valid switch code via RS232 link.
If two CDC-3060’s are connected to form an RS232 link, the CDC-3060 configured for the switcher program will be the unit, which sets the Start, End and Step for cycling operation.
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3000 series eurocard switchers.ib.rev21.doc Page 35 of 36 16/10/2007
Maintenance & storage Maintenance: No regular maintenance is required. Care however should be taken to ensure that all connectors are kept clean and free from contamination of any kind. This is especially important in fibre optic equipment where cleanliness of optical connections is critical to performance. Storage: If the equipment is not to be used for an extended period, it is recommended the whole unit be placed in a sealed plastic bag to prevent dust contamination. In areas of high humidity a suitably sized bag of silica gel should be included to deter corrosion. Where individual circuit cards are stored, they should be placed in antistatic bags. Proper antistatic procedures should be followed when inserting or removing cards from these bags.
Warranty & Service Equipment is covered by a limited warranty period of three years from date of first delivery unless contrary conditions apply under a particular contract of supply. For situations when “No Fault Found” for repairs, a minimum charge of 1 hour’s labour, at IRT’s current labour charge rate, will apply, whether the equipment is within the warranty period or not. Equipment warranty is limited to faults attributable to defects in original design or manufacture. Warranty on components shall be extended by IRT only to the extent obtainable from the component supplier. Equipment return: Before arranging service, ensure that the fault is in the unit to be serviced and not in associated equipment. If possible, confirm this by substitution. Before returning equipment contact should be made with IRT or your local agent to determine whether the equipment can be serviced in the field or should be returned for repair. The equipment should be properly packed for return observing antistatic procedures. The following information should accompany the unit to be returned:
1. A fault report should be included indicating the nature of the fault 2. The operating conditions under which the fault initially occurred. 3. Any additional information, which may be of assistance in fault location and remedy. 4. A contact name and telephone and fax numbers. 5. Details of payment method for items not covered by warranty. 6. Full return address. 7. For situations when “No Fault Found” for repairs, a minimum charge of 1 hour’s labour will apply,
whether the equipment is within the warranty period or not. Contact IRT for current hourly rate. Please note that all freight charges are the responsibility of the customer. The equipment should be returned to the agent who originally supplied the equipment or, where this is not possible, to IRT direct as follows.
Equipment Service IRT Electronics Pty Ltd 26 Hotham Parade ARTARMON N.S.W. 2064 AUSTRALIA Phone: 61 2 9439 3744 Fax: 61 2 9439 7439 Email: [email protected]
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3000 series eurocard switchers.ib.rev21.doc Page 36 of 36 16/10/2007
Drawing index Drawing # Sheet # Description 803614 1 AVS-3010 video circuit schematic. 803614 2 AVS-3010 control circuit schematic. 804070 1 AVS-3011 video circuit schematic. 804070 2 AVS-3011 control circuit schematic. 803754 1 AAS-3020 audio circuit schematic. 803754 2 AAS-3020 control circuit schematic. 804115 1 AAS-3021 audio circuit schematic. 804115 2 AAS-3021 control circuit schematic. 803763 1 DDS-3030 data circuit schematic. 803763 2 DDS-3030 control circuit schematic. 804200 1 DDS-3031 data circuit schematic. 804200 2 DDS-3031 control circuit schematic. 803662 1 DVS-3040 digital signal circuit schematic. 803662 2 DVS-3040 control circuit schematic. 804110 1 DVS-3041 digital signal circuit schematic. 804110 2 DVS-3041 control circuit schematic. 803618 CPS-3050 local control panel schematic. 803798 1 CDC-3060 circuit schematic. 803771 1 CPS-9000 circuit schematic. 803740 1 CP-700 circuit schematic. 803286 1 CP-600 dimensional drawing front panel for CPS-9000 & CPS-9001. 804194 1 CPS-9001 circuit schematic.
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TITL
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ECN 5153 10/04/95
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R10 75
R1
10K
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10K
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10K
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R5
10K
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115
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CD
215
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310
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510
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610
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3-20
p
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220
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G 2
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78L0
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TITL
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2 30/01/94
ECN 5153 10/04/95
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S-30
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R24
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482
1LD
1
GN
R28
560
31
2
LK4
R19
10K
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icatio
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CD
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CD
310
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CD
410
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CD
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610
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25K
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R15
47K
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110
0
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180
R9
220
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390K
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220
C4
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ommun
icatio
ns
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
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WRI
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NT
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22
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td.
8040
70D
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CO
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SW3
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5
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32a
31b
31a
30b
30a
29b
29a
28b
28a
27b
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7032
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37
38
40
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129752143131186416 17 18 19 21 2024 26 28 29 33
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MINEOUT
LOC
ALV
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1 13/02/97
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21
LD2
21
LD3
21
LD4
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LD5
LK2
LK1
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10K
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22u
21
D9
1N41
482
1LD
1
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R28
560
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R18
10K
R19
10K
R20
10K
R21
10K
R22
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IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
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WIT
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UT
WRI
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CO
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NT
OF
12
IRT
Elec
troni
cs P
ty. L
td.
8037
54D
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WIN
G N
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CO
PYR
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T
AR
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MO
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UST
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LIA
206
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15
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910
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J41
5 6 4 3
-12
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3 10/10/94
PCB
803
755R
32
J3
32
-12
-12
ECN 4954 15-02-95
AA
S-30
20
567
U1B
567
U2B
567
U3B
567
U4B
567
U5B
321
8 4
U8A
NE5
532
5 67
U8B
NE5
532
R26
22 R27
22
R1
12K
R2
12K
R3
12K
R4
12K
R5
12K
R6
12K
R7
12K
R8
12K
R9
12K
R10
12K
R11
12K
R12
12K
R14
12K
R13
12K
R15
12K
R16
12K
R17
12K
R18
12K
R19
12K
R20
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321
8 4
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532
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8 4
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8 4
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321
8 4
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567
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567
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321
8 4
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532
5 67
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532
R26
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R1
12K
R2
12K
R3
12K
R4
12K
R5
12K
R6
12K
R7
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R8
12K
R9
12K
R10
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R12
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R14
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R13
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12K
R16
12K
R17
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R18
12K
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R20
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321
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8 4
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532
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8 4
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321
8 4
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321
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R21 1M
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IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
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UT
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NT
OF
22
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Elec
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ty. L
td.
8037
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WIN
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CO
PYR
IGH
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LIA
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28b
28a
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R37
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R42
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10K
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IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
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803
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532
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R26
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R12
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IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
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NO
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LOSE
TO
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PA
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ty. L
td.
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WIN
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MO
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RA
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ommun
icatio
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www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
RTY
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UT
WRI
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12
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ty. L
td.
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3
SK2/
2
SK2/
17a
b
SK1/
4
SK1/
5
SK1/
3
SK1/
2
SK1/
1
SK3/
4
SK3/
5
SK3/
3
SK3/
2
SK3/
1
SK4/
4
SK4/
5
SK4/
3
SK4/
2
SK4/
1
SK5/
4
SK5/
5
SK5/
3
SK5/
2
SK5/
1
SK6/
4
SK6/
5
SK6/
3
SK6/
2
SK6/
1
4ab
10ab
13ab
16ab
19ab
P1/S
1
16=+
58=
GN
D
14=+
57=
GN
D
14=+
56&
7=G
ND
+5
+5
+12
TL1
TL2
TL3
TL4
TL5
TL6
ECN 5183 10/04/95
2 10/11/94
DD
S-30
30
4 30/08/95
F1 4R7
F2 4R7
F3 4R7
F4 4R7
D1-
4
1N40
04
D5-
81N
4004
L2 L1
21
ZD1
1N53
64B
A15
B14
C13
D12
01
12
23
34
45
56
67
79
810
911
U8
74H
C42
R7
33 R8
33
C1
1500
u
C2
1500
u
B8
100n
B9
100n
B10
100n
B11
100n
98
U7D
74H
C04
56
U7C
74H
C04
1110
U7E
74H
C04
34
U7B
74H
C04
1312
U7F
74H
C04
12
U7A
74H
C04
12 112
3
10 95
4
R D
U2
LTC
491
12 112
3
10 95
4
R D
U3
LTC
491
12 112
3
10 95
4
R D
U4
LTC
491
12 112
3
10 95
4
R D
U5
LTC
491
12 112
3
10 95
4
R D
U6
LTC
491
12 112
3
10 95
4
R D
U1
LTC
491
R1
300
R2
300
R3
300
R4
300
R5
300
R6
300
31
2
J1
B6
B5
B4
B3
B7
B1
B2
C4
10u
I3
G 2
O1
U11
78L1
2
C5
10u
C6
10u
IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
RTY
WIT
HO
UT
WRI
TTEN
CO
NSE
NT
OF
22
IRT
Elec
troni
cs P
ty. L
td.
8037
63D
RA
WIN
G N
o.
CO
PYR
IGH
T
AR
TAR
MO
N N
SW A
UST
RA
LIA
206
4
RB
B
ST1
UL1
UL2
ST2
VER
TOU
T
VER
TIN
DI0
DO
T0
DI1
DO
T1
DI2
DO
T2
DI3
DO
T3
DI4
DO
T4
+5
POR T3T2T1
SW0
SW1
SW2
SW3
SW4
ON
ETO
5
ON
ETO
10
+5
T0
32b
32a
31b
31a
30b
30a
29b
29a
28b
28a
27b
27a
20a
+12
+5
EPM
7032
36
37
38
40
39
129752143131186416 17 18 19 21 2024 25 26 27 28 32 29 31 33 34
LK3
+5
2315
353
2230
1042
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2 3 46 7 8 9
10
PL4
PL5
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UT
1A1B2A2B3A3B4A 4B5A5B
5A 4B
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1
5B
AB
5X1
RS-
422
SWIT
CH
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A B C
+5+5
+5
+5
4 1 2 67
14
58
13 1211
9
10
RST
DIS
THR
TRG
DIS
THR
TRG
NE5
56
+5
+5+5
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41
44
MINEOUT
MINEIN
U10
OPT
ION
AL
SW-7
5X
2 10/11/94
DD
S-30
30
12345678910
RP2
10K
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SW2
SW3
SW4
SW5
21
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21
LD2
21
LD3
21
LD4
21
LD5
LK2
LK1
RP1
RP1RP1
RP1RP1
RP1
RP1RP1
21
D9
1N41
48
31
2LK
4
21
LD5
R9
47K
R10
330K R11
1K5
R12
3k3
R13
10K
R14
560
R15
10K
R16
10K
R17
10K
R18
10K
R19
10K
R20
10K
R21
10K
R22
10K
B14
0.1u
B16
0.1u
B15
0.1u
B12
100n
B13
100n
C3
22u
R23
10IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
RTY
WIT
HO
UT
WRI
TTEN
CO
NSE
NT
OF
12
IRT
Elec
troni
cs P
ty. L
td.
8042
00D
RA
WIN
G N
o.
CO
PYR
IGH
T
AR
TAR
MO
N N
SW A
UST
RA
LIA
206
4
A
B
C
5x1
RS-
422
SWIT
CH
ER
+51 2
34+ -
ZS3
21a/
b
23a/
b
22a/
b
25a/
b
24a/
b
26a/
b
2b
3b
3a
5b
5a
6b
6a
8b
8a
9b
9a
11b
11a
12b
12a
14b
14a
15b
15a
17b
17a
18b
18a
2a
SK2/
4
SK2/
5
SK2/
3
SK2/
2
SK2/
17a
b
SK1/
4
SK1/
5
SK1/
3
SK1/
2
SK1/
1
SK3/
4
SK3/
5
SK3/
3
SK3/
2
SK3/
1
SK4/
4
SK4/
5
SK4/
3
SK4/
2
SK4/
1
SK5/
4
SK5/
5
SK5/
3
SK5/
2
SK5/
1
SK6/
4
SK6/
5
SK6/
3
SK6/
2
SK6/
1
4ab
10ab
13ab
16ab
19ab
P1/S
1
16=+
58=
GN
D
14=+
57=
GN
D
14=+
56&
7=G
ND
+5+1
2
TL1
TL2
TL3
TL4
TL5
TL6
1 11/06/98
DD
S-30
31
F1 4R7
F2 4R7
F3 4R7
F4 4R7
A15
B14
C13
D12
01
12
23
34
45
56
67
79
810
911
U8
74H
C42
C1
1500
u
C2
1500
u
98
U7D
74H
C04
56
U7C
74H
C04
1110
U7E
74H
C04
34
U7B
74H
C04
1312
U7F
74H
C04
12
U7A
74H
C04
12 112
3
10 95
4
R D
U2
LTC
491
12 112
3
10 95
4
R D
U3
LTC
491
12 112
3
10 95
4
R D
U4
LTC
491
12 112
3
10 95
4
R D
U5
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491
12 112
3
10 95
4
R D
U6
LTC
491
12 112
3
10 95
4
R D
U1
LTC
491
R1
300
R2
300
R3
300
R4
300
R5
300
R6
300
31
2
J1
B6
B5
B4
B3
B7
B1
B2
I3
G 2
O1
U10
78L1
2
C3
10u
C4
10u
D1-
41N
4004
D5-
81N
4004
L1
B11
100n
B10
100n
21
ZD11
1N53
64B
R8
33 R7
33B
810
0nB
910
0nL2
IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
RTY
WIT
HO
UT
WRI
TTEN
CO
NSE
NT
OF
22
IRT
Elec
troni
cs P
ty. L
td.
8042
00D
RA
WIN
G N
o.
CO
PYR
IGH
T
AR
TAR
MO
N N
SW A
UST
RA
LIA
206
4
RB
B
ST1
UL1
UL2
ST2
VER
TOU
T
VER
TIN
DI0
DI1
DI2
DI3
DI4
+5
POR T3T2T1
SW0
SW1
SW2
SW3
SW4
ON
ETO
5
ON
ETO
10
+5
T0
32b
32a
31b
31a
30b
30a
29b
29a
28b
28a
27b
27a
20a
+12
+5
EPM
7032
36
37
38
129752143131186416 17 18 19 21 2024 26 28 29 33
LK3
+5
2315
353
2230
1042
P2
2 3 56 7 8 9
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PL5
U9
INO
UT
1A1B2A2B3A3B4A 4B5A5B
5A 4B
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1
5B
AB
+5+5
+5
4 1 2 67
14
58
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9
10
RST
DIS
THR
TRG
DIS
THR
TRG
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56
+5
MINEOUT
MINEIN41
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39
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1 11/06/98
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21
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21
LD3
21
LD4
21
LD5
LK2
LK1
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RP1RP1
RP1RP1
C9
22u
C6
0.1u
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0.1u
C5
0.1u
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21
LD1
21
Z SA0.
5
R31
270
R41
270
R32
270
R42
270
R30
270
R40
270
R33
270
R43
270
R45
270
R35
270
R36
270
R46
270
R37
270
R47
270
R38
270
R48
270
R39
270
R49
270
RP1
R34
270
R44
270
21
D9
1N41
48
R14
4K7
R15
4K7
R16
4K7
R17
4K7
R18
4K7
R13
10K
R19
560
R9
47K
R10
330K R11
1K5
R12
3k3
R20
10
IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
RTY
WIT
HO
UT
WRI
TTEN
CO
NSE
NT
OF
12
IRT
Elec
troni
cs P
ty. L
td.
8036
62D
RA
WIN
G N
o.
CO
PYR
IGH
T
AR
TAR
MO
N N
SW A
UST
RA
LIA
206
4
5x1
SER
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SWIT
CH
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1 2 47
8 91013 14 11
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C
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8 91013 14 11
AG
C
+ -
+ -
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1 2 47
8 91013 14 11
AG
C
+ -
+ -
GS9
004B
+5+5
1 2 47
8 91013 14 11
AG
C
+ -
+ -
GS9
004B
+5+5
1 2 47
8 91013 14 11
AG
C
+ -
+ -
GS9
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7 6
43
5
21
8
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X2 X3
X4
X5
X6
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C
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164
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LEV
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+51 2
34+ -
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C B A
U1
U2
U3
U4 U
5
U6
U7
21a/
b
23a/
b
22a/
b
25a/
b
24a/
b
26a/
b
+5
2 5 9 12 15
220 10
139
12
19 3
1a,
b
2a,
b
5a,
b
4a,
b
9a,
b
8a,
b
12a,
b
11a,
b
15a,
b
14a,
b
18a,
b
17a,
b
14
8 7 5 4
15 17 18
+5
2 30/01/95
20 ,b
19a,
b
O/P
MO
N
EXPN
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EXPN
IN
X
PC80
3663
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ECN 5233 01/05/95
DV
S-30
40
4 30/08/95
+5 +5 +5 +5 +5
5 21/05/96ECN669
RV
110
K
R1 75 R2 75 R3 75 R4 75 R5 75
R7
390
R8
390
R9
390
R10
390
R11
390
R12
390
R13
390
R14
390
R15
390
R16
390
R17
390
R18
150 R19
150
R20
68 R21
68
C1
47p
C2
47p
C3
47p
C4
47p
C5
47p
C6
10u C7
10u C8
10u C9
10u C10
10u
C11
1u
C13
1p8
J3BN
C
F1 4R7
F2 4R7
F3 4R7
F4 4R7
D1-
4
1N40
04
D5-
81N
4004
B11
100n
B1
100n
B12
100n
B2
100n
B13
100n
B3
100n
B14
100n
B4
100n
B15
100n
B5
100n
B6
100n B
710
0n B8
100n B
910
0n B10
100n
B16
100n
J6BN
C
C15
1500
u
C16
1500
u
R22
88.7
R23
470
B17
100n
L2 L1
B24
100n
B26
100n
B23
100n
B25
100n
21
ZD1
1N53
64B
PL1
SMB
PL2
SMB
C12
10u
R21
68
C19 1u
J7BN
C
J1BN
C
J2BN
C
J4BN
C
J5BN
C
31
2
J1
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22 R45
22
R46
33K
R47
33K
R48
33K
R49
33K
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33KIR
T Com
munica
tions
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
RTY
WIT
HO
UT
WRI
TTEN
CO
NSE
NT
OF
22
IRT
Elec
troni
cs P
ty. L
td.
8036
62D
RA
WIN
G N
o.
CO
PYR
IGH
T
AR
TAR
MO
N N
SW A
UST
RA
LIA
206
4
RB
B
ST1
UL1
UL2
ST2
VER
TOU
T
VER
TIN
DI0
DO
T0
DI1
DO
T1
DI2
DO
T2
DI3
DO
T3
DI4
DO
T4
+5
MINEOUT
POR T3T2T1
SW0
SW1
SW2
SW3
SW4
ON
ETO
5
ON
ETO
10
+5
T0
32b
32a
31b
31a
30b
30a
29b
29a
28b
28a
27b
27a
20a
+5
EPM
7032
36
37
38
40
39
129752143131186416 17 18 19 21 2024 25 26 27 28 32 29 31 33 34
LK3
+5
2315
353
2230
1042
P2
2 3 45 6 7 8
PL4
PL5
U9
INO
UT
1A1B2A2B3A3B4A 4B5A5B
5A 4B
S1/P
1
5B
AB
5X1
SER
IAL
SWIT
CH
ER
+5 +5 +5
A B C
+5+5
+5
+5
4 1 2 67
14
58
13 1211
9
10
RST
DIS
THR
TRG
DIS
THR
TRG
NE5
56U8
+5
+5+5
91
10
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T414
4144
MINEIN
2 30/01/95
+5
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S-30
40
3 30/08/95
12345678910
RP2
10K
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SW2
SW3
SW4
SW5
21
LD1
21
LD2
21
LD3
21
LD4
21
LD5
R28
560
LK2
LK1
RP1
RP1RP1
RP1RP1
RP1
RP1RP1
21
D9
1N41
48
R36
10K
R37
10K
R39
10K
R40
10K
R41
10K
R42
10K
R43
10K
R24
47K
R25
330K R26
1K5
B18
0.1u
B19
0.1u
B20
0.1u
C14
22u
B21
100n
B22
100n
R27
3k3
R29
10K
R30
390
R31
390
R32
390
R33
560
R34
560
R35
560
21
LD1
I3
G 2
O1
U10
78L1
2
C17
10u
C18
10u
R38
10K
31
2
LK4
IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
Title
SCAL
E
SIZE
Shee
tD
RA
WN
CH
ECKE
DEN
G. A
PP.
Rev
isio
n:
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PAR
TYW
ITH
OU
T W
RIT
TEN
CO
NSE
NT
of1
IRT
Elec
troni
cs P
ty. L
td.
Dra
win
g N
o.
CO
PYR
IGH
T
ARTA
RM
ON
NSW
AU
STR
ALIA
206
4
A3
N.T
.S.
2
DVS
-304
1
8041
10
Dat
e: 4
8-Ju
l-200
2
+5
C B A
21a,
b
23a,
b
22a,
b
25a,
b
24a,
b
26a,
b
+5
2a,
b
18a,
b
17a,
b
20,b
19a,
b
EXPN
IN/ O
UT
X
+5
5a,
b
10a,
b
9a,
b
13a,
b
12a,
b
16a,
b
15a,
b
CLC CHIPSET
5x1
SER
IAL
SWIT
CH
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+5
O/P
2
O/P
1
U1/
1
U2/
1
U3/
1
U4/
1
1 5/08/972 16-06-98 ECR921
1a,
b
3a,
b
4a,
b
6a,
b
8a,
b
14a,
b
11a,
b
PCB
8041
23 IS
S.6
3 23-10-00 ECR1138
FOR
EXP
ANSI
ON
OU
TPU
T R
EPLA
CE
C44
BY
SHO
RT
CIR
CU
IT A
ND
USE
SK
7 AS
EXP
ANSI
ON
OU
TPU
T.
FOR
EXP
ANSI
ON
INPU
T R
EMO
VE C
44, R
EPLA
CE
R27
WIT
H 0
R0
AND
WIR
E C
OAX
FRO
M R
27 T
O R
17. U
SE S
K7 A
S EX
PAN
SIO
N IN
PUT.
Vcc1 DO 14
AEC-7
AEC+6
CD5
Vcc4
OEM3
Vcc2
DI 8
DI 9
Vee 10
Vee 11
MUTE 12
DO 13
U1
CLC
014
L610
0nH
Vcc1 DO 14
AEC-7
AEC+6
CD5
Vcc4
OEM3
Vcc2
DI 8
DI 9
Vee 10
Vee 11
MUTE 12
DO 13
U2
CLC
014
Vcc1 DO 14
AEC-7
AEC+6
CD5
Vcc4
OEM3
Vcc2
DI 8
DI 9
Vee 10
Vee 11
MUTE 12
DO 13
U3
CLC
014
Vcc1 DO 14
AEC-7
AEC+6
CD5
Vcc4
OEM3
Vcc2
DI 8
DI 9
Vee 10
Vee 11
MUTE 12
DO 13
U4
CLC
014
Vcc1 DO 14
AEC-7
AEC+6
CD5
Vcc4
OEM3
Vcc2
DI 8
DI 9
Vee 10
Vee 11
MUTE 12
DO 13
U5
CLC
014
F4 4R7
F3 4R7
F2 4R7
F1 4R7
2 1
D10
LS41
48
R45
22R
R44 22R
R20 100
R21
180
R27 68 R26 68
C3
100p
F
C4
100n
C5
100n
C26
10nF
C8
100p
F
C9
100n
C10
100n
C13
100p
F
C14
100n
C15
100n
C18
100p
F
C19
100n
C20
100n
C23
100p
F
C24
100n
C25
100n
2 1
D12
LS41
48
2 1
D11
LS41
48
JP1
0R0
JP2
0R0
JP3
0R0
C40
10nF
13
2
FIL1
13
2
FIL2
13
2FIL3
13
2
FIL4
R1
75R
R11 120
R3
75R
R5
75R
R7
75R
R9
75R
C2
100n
C7
100n
C12
100n
C17
100n
C22
100n
RFC
1
RFC
2R
60 100
R62
100
R64 100
R66 10
0
R68 100
R65
100
R67
100
R63 10
0
R61
100
R59
100
C39
100p
F
C42
100n
C38
100n
R18
820
R19
270
C45 4u7
C44 4u7
C35
10nF
C36 4u7
C34
10nF
C37
4u7
C33
100n
C32
100n
C31
10nF
C30
10nF
L8
100n
H
L1R
A
L2R
A
L3R
A
L4R
A
L5R
A
C1
100n
C6
100n
C11
100n
C16
100n
C21
100n
C29 4u
7
C55
10nF
C56
10nF
21
ZD1
1N53
65B C
5415
00uF
C53
1500
uF
123J2
/R
C27
10nF
L7/R
SK6
SK7
L6/R
R12
100 R14 100
R15 100
R13
100
R2
75 R4
75 R6
75 R8
75 R10 75
C62
10nF
C28
4u7
C58
10nF
C57
10nF
D5-
8
1N40
04
D1-
4
1N40
04
SK1
SK2
SK3
SK4
SK5
R17
82R
R16
560
RV1
500R
RBB
L2 15nH
R2R
A
68R
R3R
A
68R
L3 15nH
JP6
0R0
JP7
0R0
JP8
0R0
L4 15nH L5 15nH
R4R
A
68R
R5R
A
68R
L1
15nH
JP5
0R0
JP4
0R0
R1R
A
68R
VIN
-2
VIN
+1
+V5
-V3
6
7
CO
NV
PBBA
-240
5B+5
Q0
1VC
C8
Q1
4
Q1
3
Q0
2
VEE
5
IN-
6
IN+
7
U7
CLC
007
R6/
R
68R
R7/
R
68R
C41
1p5
4 23-04-01 ECR1202
X08
X17
X25
X34
X414
X515
X617
X718
A 9
B 12
C 13
VEE 10
Z19
EN3
VCC12
VCC220
U6
MC
10H
164F
N
IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
Title
SCAL
E
SIZE
Shee
tD
RA
WN
CH
ECKE
DEN
G. A
PP.
Rev
isio
n:
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PAR
TYW
ITH
OU
T W
RIT
TEN
CO
NSE
NT
of2
IRT
Elec
troni
cs P
ty. L
td.
Dra
win
g N
o.
CO
PYR
IGH
T
ARTA
RM
ON
NSW
AU
STR
ALIA
206
4
A3
N.T
.S.
2
DVS
-304
1
8041
10
Dat
e: 4
8-Ju
l-200
2
ST1
UL1
UL2
ST2
VER
TOU
T
DI0
DI1
DI2
DI3
DI4
+5
MINEOUT
POR T3T2T1
SW
0
SW
1
SW
2
SW
3
SW
4
ON
ETO
5
ON
ETO
10
+5
T0
32b
32a
31b
31a
30b
30a
29b
29a
28b
28a
27b
27a
20a
+5
EPM
7032
3637
3840
39
129752143131186416 17 18 19 21 24 28 29 33
+5
2315
353
2230
1042
P2
2 3 46 7 8 9
PL4
PL5
U9
INO
UT
1A1B2A2B3A3B4A 4B5A5B
5A 4B
S1/P
1
5B
AB
+5 +5 +5
A B C
+5+5
+5+5
+5
X
T414
4144MINEIN
CLC CHIPSET
* * * *
26* * * *
20** * *
UN
IVER
SAL
WPX
10
I/O PROTECT.
5x1
SER
IAL
SWIT
CH
ER
1 5-08-97
CO
NTR
OL
CIR
CU
IT
2 16-06-98 ECR921
+5+5
12345678910
RP2
10K
SW
1
SW
2
SW
3
SW
4
SW
5
21
LD1
21
LD2
21
LD3
21
LD4
21
LD5
LK2
LK1
RP1
RP1RP1
RP1RP1
RP1RP1
21
LD1
I3
G 2
O1
U10
78L1
2
31
2 LK4
31
2
LK3
R49 3k3
C47
22uF
R29
10K
R50
10R
R30
390
R33
560
R31
390
R34
560
R32
390
R35
560
RP1
22K
R58
10K
R57
10K
R56
10K
R55
10K
R54
10K
21
D9
BAS3
2
C59
1uF
C60
1uF
C48
100n
F
C52
100n
F
C46 22uF
R47
330K
R46
1K5
C50
100n
F
C49
100n
F
C61
100n
F
R53
270
R52
270
R43
270
R51
270
R41
270
R40
270
R39
270
R38
270
R37
270
R36
270
R42
270
21
D13
-D23
SA5.
0A
R79
270
R78
270
R77
270
R76
270
R75
270
R74
270
R73
270
R72
270
R71
270
R70
270
R69
270
C51
100n
F
R28 560
DIS
1
THD
2C
V3
V+14
RST4
GND 7
O/P
5
TR 6
U8A
TLC
556
DIS
13
THD
12C
V11
RST10
O/P
9
TR 8U
8B
TLC
556
C43
100n
F
AB
3 23-10-00 ECR11384 23-04-01 ECR1202
RBB
IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
VC
C
VC
C
VC
CV
CC
VC
C
RP1
9x22
K
RP3
9x22
K
LK1-
8
VC
C
AD
DR
ESS
PRO
GTY
PELO
OP
LAM
P
LK8
LK7
LK6
LK5
LK4
LK3
LK2
LK1
*
A B C D ST2
*
SK1
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
RTY
WIT
HO
UT
WRI
TTEN
CO
NSE
NT
OF
1
IRT
Elec
troni
cs P
ty. L
td.
DR
AW
ING
No.
CO
PYR
IGH
T
AR
TAR
MO
N N
SW A
UST
RA
LIA
206
4
1
1 17/02/95
SER
IAL
CO
NTR
OL
D2-
61N
4148
D7-
111N
4148
D12
-16
1N41
48
VC
C
VC
C
+12
+5
4x4R
7
4x1N
4004
+5
VC
C
VC
C
E UL1
29b
29a
28b
28a
27b
31a
32a
+12
20a
27a
RX
D
TXD
DTR
2a
2b
3b
1a,b
21a,
b
23a,
b
22a,
b
25a,
b
24a,
b
26a,
b
4A 3B 3A 2B 2A
CM
ND
65
43
21
0
VC
C
VC
C
VC
C
VC
C20
40
RP2
VC
C
8037
98
CD
C-3
060
PC 8
0379
9
LK5
OU
T, L
K4
IN =
CO
NTR
OL
PAN
EL P
RO
GR
AM
LK5
OU
T, L
K4
IN =
RES
ERV
EDLK
5 O
UT,
LK
4 O
UT
= R
ESER
VED
AD
DR
ESS
XPO
INT
NU
MB
ER
7
DA
TA W
ORD
ASS
IGN
MEN
T
30a
2 04/04/95
LK5
OU
T, L
K4
OU
T =
SWIT
CH
ER P
RO
GR
AM
ECN 5483 24/07/95
DA
TA =
960
0 B
AU
D, 8
BIT
S, N
O P
AR
ITY
, 1 S
TOP
4 28/08/95
X1
CR
YST
AL
C1
10p
C2
10p
21 D1
1N41
48
R3
22K
R1
10M
C6
1u
C7
1u
21
21
21
21
21
21
21
21
21
21
21
21
F1 F2 F3 F4
2 1
LD1
PWR
21
D17
21
D18
21
D19
21
D20
R4
560
2 8 5 1 4 6 9
J2
3
PL4 1A 1B 5B
C1+
1
C1-
3
C2+
4
C2-
5
VC
C16
GN
D15
V+
2
V-
6
Q2
12
Q1
9
D1
11
D2
10T2
7T1
14R
18
R2
13
U2
LT10
81
PA0
11
PA1
10
PA2
9
PA3
8
PA4
7
PA5
6
PA6
5
PA7
4
PB0
12
PB1
13
PB2
14
PB3
15
PB4
16
PB5
17
PB6
18
PB7
19
PC0
28
PC1
27
PC2
26
PC3
25
PC4
24
PC5
23
PC6
22
PC7
21
PD7
36
RD
I29
TDO
30
PD2
31
PD3
32
PD4
33
PD5
34
OSC139
OSC238
RST
1IR
Q2
TCM
P35
TCA
P37
VPP 3
U1
68H
C70
5C8
C3
22u
R6
10
I3
G 2
O1
U4
78L1
2 I3
G 2
O1
U3
78L0
5
C10
10u
C12
10u
C11
10u
R5
560
C13
10u
C8
100n
21
LD2
LED
C4
1u
21
D6
21
D11
21
D16
SW1
SW2
SW3
C5
1u
5A4B
R2
150
C9
470uIR
T Com
munica
tions
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
RTY
WIT
HO
UT
WRI
TTEN
CO
NSE
NT
OF
11
IRT
Elec
troni
cs P
ty. L
td.
2 16/5/1994
8037
71D
RA
WIN
G N
o.
CO
PYR
IGH
T
AR
TAR
MO
N N
SW A
UST
RA
LIA
206
4
RB
B
ST1
UL1
UL2
ST2
DI0
DO
T0
DI1
DO
T1
DI2
DO
T2
DI3
DO
T3
DI4
DO
T4
+5
MIN
EOU
T
MIN
EIN
POR T3T2T1
SW0
SW1
SW2
SW3
SW4
ON
ETO
5
ON
ETO
10
+5
T0
+5
EPM
7032
41 44
36
37
38
40
39
129752143131186416 17 18 19 24 25 26 27 28 32 29 31 33 34
LK3
+5
2315
353
2230
1042
P2PL
4PL
5
U1
INO
UT
1A1B2A2B3A3B4A4B5A5B
5A 4B5B
AB
REM
OTE
CO
NTR
OL
PAN
EL
T414
+5
+5+5
PCB
803
772
& P
CB
803
773
CPS
-900
0
3 30/08/95
4 02/12/96ECR777
SW1
SW2
SW3
SW4
SW5
21
LD1
21
LD2
21
LD3
21
LD4
21
LD5
LK2
LK1
C7
22u
12345678910
RP1
10K
21
D1
1N41
48R
810
K
R9
560
I3
G 2
O1
U2
78L0
5
C1
10u
C2
10u
C3
100n
C4
100n
R10
10K
R1
10K
R2
10K
R11
10K
R12
470
R3
470
R4
470
R5
470
R6
470
R7
470
IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
CO
NTR
OL
PAN
EL
(J2)
CP-
700
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
RTY
WIT
HO
UT
WRI
TTEN
CO
NSE
NT
OF
11
IRT
Elec
troni
cs P
ty. L
td.
8037
40D
RA
WIN
G N
o.
CO
PYR
IGH
T
AR
TAR
MO
N N
SW A
UST
RA
LIA
206
4
1 3/8/1994
K.N
. C.N
.
2345678+V
OLT
S
SW1
SW2
SW3
SW4
SW5
GN
D
CP-
700
5x1
SWIT
CH
ER
SW5
SW4
SW3
SW2
SW1
2 1
2 1
2 1
R1A
470
R5A
470
5 9 4 8 3 7 2 6 1
J1 DB
9
2 1
LD1
2 1
LD5
IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com
TITL
E
SCA
LE
SIZE
SHEE
T
DRA
WN
CH
ECK
ED
ENG
. APP
.
CO
NTR
AC
T N
o.
DO
NO
T C
OPY
NO
RD
ISC
LOSE
TO
AN
YTH
IRD
PA
RTY
WIT
HO
UT
WRI
TTEN
CO
NSE
NT
OF
11
IRT
Elec
troni
cs P
ty. L
td.
8041
94D
RA
WIN
G N
o.
CO
PYR
IGH
T
AR
TAR
MO
N N
SW A
UST
RA
LIA
206
4
RB
B
ST1
UL1
UL2
ST2
DI0
DI1
DI2
DI3
DI4
+5
MIN
EOU
T
MIN
EIN
POR T3T2T1
SW0
SW1
SW2
SW3
SW4
ON
ETO
5
ON
ETO
10
+5
T0
+5
EPM
7032
41 44
36
37
38
40
39
129752143131186416 17 18 19 24 26 28 29 33
LK3
+5
2315
353
2230
1042
P2PL
4PL
5
U1
INO
UT
1A1B2A2B3A3B4A4B5A5B
5A 4B5B
AB
REM
OTE
CO
NTR
OL
PAN
EL
T414
+5
+5
PCB
803
772
& P
CB
803
773
CPS
-900
1
P6
4A 3B 3A 2B 2A 1B
* * * * * * * * * * =
1 03/06/98
SW1
SW2
SW3
SW4
SW5
21
LD1
21
LD2
21
LD3
21
LD4
21
LD5
LK2
LK1
12345678910
RP1
10K
21
D1
1N41
48
I3
G 2
O1
U2
78L0
5
C1
10u
C2
10u
C3
100n
R5
4K7
R4
4K7
R3
4K7
R2
4K7
R1
4K7
21
SA0.
5
R15
270
R16
270
R18
270
R17
270
R8
270
R9
270
R7
270
R6
270
R10
270
R19
270
R20
270
R11
270
R12
270
R21
270
R22
270
R13
270
R14
270
R23
270
R26
22K
R27
22K
R24
10K
R25
560
C4
22u
IRT C
ommun
icatio
ns
www.irtco
mmunica
tions
.com