ML18142A094
| ML18142A094 | |
| Person / Time | |
|---|---|
| Site: | Surry, 05000000 |
| Issue date: | 11/19/1980 |
| From: | VALIDYNE ENGINEERING SALES CORP. |
| To: | |
| Shared Package | |
| ML18130A405 | List: |
| References | |
| 9833, NUDOCS 8411200398 | |
| Download: ML18142A094 (19) | |
Text
( 1.0 SCOPE ... Alid)'NE ENQINHRINQ CORPORATION INSTRUMENTATION
- TRANSDUCERS
- ELECTRONICS 8626 Wilbur Avenue . Northridge
- California 91324 * (213) 886-8488 Telex 65-1303 DESIGN SPECIFICATION DOC. #9833 For Rev. 4, 11/19/80 . IID310 HIGH SPEED DATA ACQUISITION SYSTEM The purpose of this document is to provide the minimum system specifications of the HD310 High Speed Data Acquisition System. This document covers electrical/mechanical specifications and qualification requirements for the overali system including:
MC170AD Remote Multiplexer Unit MX311 Digital Submultiplexer MR.312 Master Receiver DA313 Digital-to-Analog Converter
2.0 APPLICABLE
DOCUMENTS, CODES AND STANDARDS The following documents form a part of this sp~cification, to the extent specified herein. 2.1 U.S. Nuclear Regulatory Commission (NRC) a. 10 CFR21 -Reporting of Defects and Noncompliance
- b. 10 CFRSO, Appendix B -Quality Assurance Criteria for Nuclear Power Plants and Fuel Reprocessing Plants 2.2 American National Standards Institute (ANSI) 2.3 a. ANSI N45.2 -Quality Assurance Program Requirements.for Nuclear Power Plants b. ANSI N45 .. 2.13 -Quality Assurance Requirements for Control of Procurement of Items and Services for Nuclear Power Plants Institute of Electrical and Electronic Engineers (IEEE) a. IEEE-384-1974:
Standard Criteria for Independen.ce of Class-IE Equipment and Circuits (US-NRC Regulatory Guide 1.75). b. IEEE-323-1974:
Standard for Qualifying Class-IE Equipment for Nuclear Power-Generating Stations (US-NRC Regulatory Guide 1.89). c. IEEE-344-1975:
Recommended practices for Seismic Qualification of Class -IE Equipment for Nuclear Power-Generating Stations NRC Regulatory Guide 1.100). d. IEEE-472-1974:
Surge Withstand Capability (SWC) Test Guide (included in ANSI/IEEE C37.90-1978)
3.0 SYSTEM
SPECIFICATIONS
3.1 Description
The HD310 High Speed Data Acquisition System can process up to 4096 channels of analog data, convert it to digital data, and transmit it over balanced line of fiber optic links to a remote receiver.
All data channels can then be fed simultaneously to a pulse code modulated (PCM) tape recorder while selected channels are fed to digital-to-analog converters to drive pen recorders, oscillographs, oscilloscopes, or other analog equipment.
The system can also interface with a computer to stor~ *and operate on any or all of the digital data, limited only by the puter's speed. The basic system can simultaneously process 32 thru 512 channels of log data from 16 MC170AD modulf~cases, but can be further expanded from 512 to 4096 channels with digiial submultiplexers.
Each submultiplexer can sample and transmitto the receiver 256 channels of input from eight. MCI 70AD module cases .. When 16 subrnultiplexers are used a total of 4096 channels of input data are transmittec;l to th.e receiver.
This system has been designed to meet seismic, and radiation requirements, and provides complete electrical isolation between data input and receiver when employing fiber optic transmission.
3.2 General
Design Specifications The_following are general design considerations that shall be applicable to all equipment described in this document.
3.2.1 Durability/Reliability:
Equipment shall be capable of operation in an industrial nuclear environment for an expected design life of 40 years. With routine maintenance, mean time between failure shall be a minimum of 5.0 years. 3.2.2 3erviceability:
Equipment-will interface many safety systems and sha}l be serviceable without affecting the integrity of 0 operability of those safety systems.
3.2.3 3.2.4 3.3 3. 3. 1 3.3.2 3.3.3 3.3.4 3.3.S 3.3.6 3.3.7 3.3.8 3.3.9 Environmental:
Seismic and environmental conditions will be sidered in system design and equipment choice. Standardizations:
Serviceability and ease of maintenance shall tate standardization of types of components used in the system to mize troubleshooting, maintenance,and spare parts costs. System Electrical Specifications:
The following specifications shall apply to the overall HD310 System without any signal conditioner or amplifier modules (i.e., asslDiling ideal unity gain amplifiers ar.e used in place of the various signal conditioning modules normally used in the MC170AD Remote Multiplexer Unit. The specifications for each of these modules may be found under separate documents.
Input: System full scale input shall be from -10.00 volts to +10.00 volts. Wor<l Length: 14 bits including 12-bit data word (14 µsec) Resolution:
1 part in 4096 Maximum Word per Scan: 34 (Start, ID, 32 Data) (476 µsec) Minimum Words per Scan: 3 (Start, ID, 1 Data)(42 µsec) Word Rate: 71,500 per second per link (maximum 16 links) Data Rate: 23,800 samples per second (1 channel per link) Output: 1,073,000 data points per second maximum Accuracy:
System accur~cy from analog input to digital output to peripherals shall be 0.1% of full scale 3.3.10 Temperature Range: The overall system components shall be capable of normal operation within the temperature range from 0° to 158°F 3.3.11 Temperature Stability:
The overall system shall be resistant perature drift as specified below: Zero Shift: Span Shift: +/-100 Microvolts/F 0 at signal conditioning input . +/-0. 005%/°F 3.3.12 Input Power: All module cases or other chassis shall be operable with input power rated at 105 to 125 VAC, 50 to 60 Hz. 3.3.13 System Expansion:
The system shall be expandable up to 4096 nels. Specific channel and '.1ardware requirements will be identified as a project unique basis in the system assembly parts list and chase order. * -3.3.14 Channel Identification:
A channel numbering scheme shall be provided for each data point and shall not be affected by the system expansion
- . 3.3.15. Control Switches:
Control switches subject to constant operator use shall be ruggedized and cap~ble of handling expected lifetime cycles. 3.3.16 System Malfunction Alarm: The system shall contain an internal alann sub-system which will notify the system operator in the event of a function in a remote multiplexer.
3.3.17 Calibration:
The overall system shall be capable of being calibrated such that O .to +10.00 VDC output from each digital-to-analog converter (DAC) will represent Oto 100% process input span. 3.4 System Mechanical Specifications:
3.4.1 All modules shall be designed to be mounted in standard 19" racks. _5.;. Rev. 10/15/80 3.4.2 3.4.3 3.4.4 3.4.5 3.4.6 3.4.7 3.4.8 3.4.9 All units shall be designed such that several may be installed in
- standard 19" racks directly on top of each o,ther without excessive heat build-up from internal power supplies or other components.
All "Digitized Signal" outputs (e.g., output of MC170AD unit) shall have a standard plug connector.
Internal plugs, sockets, and wiring shall be in place such that a plug-in optical transmitter may be added at any time with no internal*
changes to the module case. All printed circuit cards shall have all pots and test points required for normal calibration available on the front edge of the boards. tial set-up adjustments may be accessible with the use of an extender card. Card extenders shall be made available for each different board type. All printed circuit cards shall be removable from the front of the module case without removal of the unit and without disconnecting input circuitry.
Power supplies shall be removable from the front of the unit. Passive module case components (plugs, jacks, operator switches, ternal wiring, terminal strips, etc.) may be considered part of th*e module *case and serviceable only with the case removed from the panel. 3.4.10 All printed circuit cards shall be capable of being removed with the unit power on unless a printed warning exists prominently on the face of the module case. 3.4.11 Power shall be supplied to all chassis through PT02 type 3-pin connectors or equivalent. /
3.4.12 Input and Output connectors shall be located on the rear of the ( chassis. 3.4.13 Connector shall be capable of mechanical restraint when connected.
3.4.14 All plugs (cable side) shall have recessed pins. 3.4.15 All module cases or chassis shall engage into a "16 screw" type terminal edge connector.
3.4.16 Provisions shall be made for structural support connections in the rear or sides of the module cases and chassis. 3.4.17 The words or acronyms on the module cases, input amplifier cards, and chassis shall be silk screened or photo-etched.
3.4.18 Materials which are specifically excluded from component manufacture are as fo ! lows: 3.5 3.5.1 a. Flammable or* flame-supporting materials
- b. Toxic materials
- c. Radio active materials
- d. Materials which will provide support for insects or fungus e. Magnesium and magnesium alloys *f. Polyvinyl chloride plastics Qualification Requirements:
The equipment specified in this document as IEEE Class-IE "qualified" shall be designed and tested to ensure that it does not degrade other safety-related system~' functions during the combined worst case environment.
Specific qualification requirements are listed under applicable component sections of this document. Rev. 4, 11/19/80 3.5.2 3.5.3 The qualification testing and documentation reporting shall be formed to the requirements of the applicable documents referenced in Section 2.0 of this document.
System functional failures shall be acceptable as long as the failure mode cannot in any way cause additional failures or degraded performance to other related circuits.
( 4.0 4.1 4. 1.1 4.1.2 (. COMPONENT SPECIFICATIONS MC170AD Remote Multiplexer Unit Description The MC170AD Remote Multiplexer Unit accepts up to 25 plug-in modules selected from Validyne's line of signal conditioners and amplifiers.
The module case also has a PC connector at the rear to accept an ditional seven analog input channels for a total capacity of 32 nels of analog input data. Each module case contains an analog multiplexer and analog..:.to-digital converter.
The mulitplexer samples each channel sequentially, and the analog-to-digital converter converts the analog signal into a serial digital word containing 12 bits of data (resolution of 1 part in 4096) for transmission over a balanced line or fiber optic cable. Each module case has identification switches to set the link, sublink and last channel number. The data scan begins with a start word, an ID word, and up to 32 channel words. The setting of the last channel number switch determines the point at which the scan will start over again. Several calibration voltages ~re also available which can be connected to spare analog input channels for automatic system calibration.
Each MC170AD module case is powered by a PS171 power supply which plugs into the module and for the purposes of the specification may be dered part of the .module. Electrical Specifications Specifications listed in Section 3.3 of this document shall apply to this component unless otherwise stated below. a. Signal Transmitter The remote multiplexer shall be designed with balanced line transmitter.*
The remote multiplexer.
shall have the optional capability of fiber opticJdata transmission which may be adapted without physical module case modification.
( The electrical output shall be capable of accurate transmission for a distance of at least 500 feet using appropriate cabling. The optional optical output shall be capable of accurate transmission for a distance of at least 3000 feet using appropriate fiber optic cabling. b. Input Connectors The individual input connectors shall be wired as follows; one per channel input. All Pin Input Amplifiers , l + Input 2 -Input 3 + Excitation 4 Excitation 5 Input Common Bus 6 Shield Common Bus 7 Relay Contact Power Bus 8 Not Used 4 Input Status Module (only) Input 1 Input 2 Input 3 Input 4 Input Common Bus Shield Common Bus Re 1 ay Cont act Power Bus Not Used Pins 1 through 4 shall be wired as shown for universal input amplifier plug..,.in.
All pin S's shall be internally wired together and terminated to an isolated screw lug on the rear of the chassis marked Relay Contact Power Return". All pin 6's shall be internally wired together and terminated to an isolated external screw lug on the rear of the chassis marked "Shield Common". . Rev_ 2 7 /?? /'Kn 4.1.3 4.1.4 All pin 7' s shall be internally wired together and terminated to an isolated screw lug on the rear of the chassis marked "Relay Contact Power". c. Output Connectors Output connectors shall be compatible for data mission as follows: Single fiber optic conductor
_for optical output Two-conductor and shield for electrical output d. Remote Calibration Feature (optional)
A momentary on position switch will be located at the front of the remote multiplexer unit to enable manual operation of the calibratidn mode. Terminals at the rear of the Remote Multiplexer Unit allow an external switch contact to be used. ' Operation of the switch will apply a calibration command volt-age to each of the signal conditioner plug-in modules, ing in a calibration function.
Mechanical Specifications Specifications
_listed in Section 3.4 of this docwnent shall apply to this component unless otherwise stated below. a. Chassis Width 19.0 inches (rack mount) Height 5.25 inches Length 16.0 inches (maximum including mating connector)
Qualification Requirements The MC170AD Remote Multiplexer Unit shall be qualified to IEEE Class-lE Specifications as outlined in Regulatory Guides 1.89 and 1.100 (IEEE Standars 323 and 344). Specific fication requirements are listed under separate documents. Rev. 3 10/15/80
( 4.2 MX311 Digital Submultiplexer
4.2.1 Description
The_optional MX311 Digital Submultiplexer expands the number of input channels per link from 32 to a maximum of 256. A single MX311 Submultiplexer can receive signals from up to eight MC170AD units, store the data in random access memories (RAM's) and sequentially transmit the data to the MR312 Master Receiver over a single data link. Up to 16 Submultiplexers can be used to accept data from up to 128 module cases. The word rate from the submultiplexer is the same as each of the eight input MC170AD units. Serial interface is available for balanced line or fiber optic cable, input or output. 4.2.2 Electrical Specifications Specifications listed in Section 3.3 of this document shall apply to this component unless otherwise stated below. a. Digital Submultiplexer
-The digital submultiplexer shall be capable of accepting up to eight digital inputs from the remote submultiplexer and synchronize them into a single digital output stream with a word rate of 71,500 words per second. b. Signal Receivers/Transmitters The Digital Submultiplexer shall be designed with balanced line data receivers and tr~nsmitters.
The Digital Submultiplexer shall have the optional capability of fiber-optic data reception and transmission which may be adapted without physical module case modification.
The Digital Submultiplexer shall be capable of receiving data over a minimum two-foot cable distance without overloading the input. The electrical output shall be capable of accurate mission for a distance of at least 500 feet using appropriate cabling. The optional optical output shall be capable of accurate mission for a distance of at least 3000 feet*using appropriate
4.2.3 Mechanical
Specifications Specifications listed in Section 3.4 of this document shall apply to this component unless otherwise stated below. a. Chassis Width Height Depth 4.2.4 Qualification Requirements None 4 .. 3 MR.312 Master Receiver 4.3.1 Description 19.0 inches (rack mount) 5.-25 inches 14.0 inches The MR312 Master Receiver is capable of receiving serial data *directly from 16 MC170AD module cases, from 16 MX311 Digital Submultiplexers, or any combination thereof. The MR312 contains up to 16 plug~in DR317 Receiver cards. Each DR317 can receive 256 data words and store them in a RAM for controlled readout into a computer or *other peripheral ment. The data words are contained in eight blocks with 32 words in each block. Each block is received with a start word and an ID word which identifies the link and sublink it was received from and how many words (channels) are in the block. Each DR317 also has two sets of buffered output lines for feeding the received serial data to externai" devices such as a PCM tape recorder and DA313 Digital-to-Analog Converters in the MC314 Module Case. Serial data from.the PCM tape recorder may also be selected within the MR312 in place of a normal input from the MC170AD and/or*MX311.
The RAM on each receiver card is a part of the total MR312 memory. The 16 receiver cards can store one scan of all 4096 possible input channels.
Signals coming into the MR312 are stored_in memory, *and. any channel's data word may be retrieved on a parallel output bus by means of a lel input address code bus. Two ways in which data stored in memory may be retrieved are:
New data can be allowed to overwrite old data such that the memory always has the most recent information.
Data can be held in memory until all data of interest on a given receiver link has been outputted.
Then a signal on the memory-control lines can allow a new scan of data to overwrite the old stored data. 4.3.2 Electrical Specifications Specifications listed in Section 3.3 of this document shall apply to this component unless otherwise stated below. a. Master Receiver The Master Receiver shall be capable of generating responses to requests for formatted data from the computer interface within 0.1 milliseconds maximum. At each of these requests the interface shall provide the data per the previously stored sample plan; i.e., the current value for each channel in the prestored channel list. The Master Receiver shall be capab-le of transferring data directly to other Master Receiver units independently of its computer inferface.
This allows setting up redundant computer inferfaces which can operate.independently of each ** other. The Master Receiver shall provide one PCM channel output to a magnetic tape recorder per link input to the Master Receiver.
The Master Receiver shall provide output data for up to 64 digital-to-analog converters.
The Master Receiver shall provide output data to a tape recorder on a continuous basis. The Master Receiver shall accept playback PCM data from a tape recorder and process it as if it were real time data .. The Master Receiver shall provide data to the DAC's, on a ous basis, in real time or recorded data in the event of tape playback. Rev. 2 7/22/80 The Master Receiver shall display system malfunction indica-( tions from the MC170AD and/or MX3ll units. b. Internal Time Code Generator (TCG) The Master Receiver shall contain *an internal time code tor which shall provide continuous output of date, hours, minutes, seconds and milliseconds.
This clock shall be sible for recording on the tape unit and shall keep accurate time even when tape unit is in playback mode. Provisions shall be made In the Master Receiver design so that the real time or playback clock from the magnetic tape can be display~d and selectively passed on to the computer interface.
The TCG shall allow the system operator to input current time following system power up as well as selectively display date or time (either real or from tape input). The TCG shall provide t~o outputs: a. Serial output to PCM tape recorder.
- b. Parallel output through computer interface to computer.
- c. Receiver Programmer The Master Receiver shall contain a receiver programmer capable of accessing current information on.any of the 4096 input channels at any given time from the Master Receiver cards according to a prespecified, formatted sample plan. The RP315 can store up to 4096 channel address codes in a random manner, as programmed by an external computer.
An internal sequencer advances through a programmed memory, outputting a new channel address code each time the RP315 is strobed by the computer.
The receiver programmer shall be capable of receiving a sample plan and storing that plan for use. The information (current samples) requested by the sample plan shall be transferred via 16-bit parallel transmission link to computer's direct access memory (DAM). Data transfer to computer shall be done on an on-demand basis only, under direct computer control.
( (.. d. Computer Interface The Master Receiver shall be capable of data transfer to a computer at rates compatible with previously stated system capabilities unless limited by the computer.
The computer interface shall provide the capability for the computer to communicate and control the following PCM tape recorder functions:
-Record -Playback * ...
- Rewind Fast Forward -Stop \ tJ \': The computer interface shall prdvide all necessary synchroniza-tion and control to transfer data, both real time and playback, between Master Receiver and computer.
4.3.3. Mechanical
Specifications Specifications listed in Section 3.4 of this document shall apply to this component unless otherwise stated below. a. Chassis Width H~ight Depth 19.0 inches 10.S inches 14.0 inches
( 4.3.4 4.4 4.4.1 Qualification Requirements None DA313 Digital-to-Analog Converters (DAC) Description The MC314 Module Case accepts eight plug-in DA313 Digital-to-Analog Converter modules and a plug-in power supply. Up to eight module cases containing a total of 64 digital-to-analog converters can be I connected to the out~uts of the MR312 Master Receiver.
Each DA313 can be programmed to look at any input channel, and convert any one of the possible 4096 channel-word streams from the MR312 Master Receiver to an analog voltage of +10 to -10 volts, with data word rates up to 23,800 per second. The DA313 indicates if data is being received, and disp_lays the channel ID of the word being converted on a 5-digi t LED indicator.
The selected channel may be changed manually with front panel push buttons or externally through computer control. The +/-10 volt analog output signal can drive a pen recorder, oscillograph ) recorder or an FM tape recorder.
The signal operates a 2-channel alarm circuit to provide an alarm when input voltages are higher or lower than a preset level. A front panel high (HI) alarm and low (LO) alarm LED is .energized when the alarm in on. Each DA313 has additional HI and LO alarm bus outputs. These are separately bussed in the module case. A HI alarm or a LO alarm on any channel in the module case can be detected by a single output. The HI alarm bus and the LO alarm bus may be connected together or to busses on other MC314 module cases for a common output. The DA313 also incorporates a variable gain and suppression amplifier with a four-position*
gain switch for increasing gain from 1 to 10 in four increments.
A gain potentiometer adjustment allow~ the gain to be changed from 40 to 110 percent of each gain range.* A second controlled potentiometer allows any input from +lOV to -lOV to be suppressed to zero. ..
4.4.2 Electrical
Specifications a.. Each DAe shall. be able to monitor any data input channel and con-' vert its digital code to an equivalent analog value. b. The input channel address code shall *be a human-engineered group of numeric characters, which shall contain information as to the electrical location of the channel within the system. ~-The channel selector switch associated with each DAC shall be o= a type into which the channel code may be directly set and which will provide to the system operator an indication of the selected channel. d. The DAC's shall have the capability to accept the digital codes corresponding to the range of -8.00 vne to +8.00 VDC and to internally scale and bias that input to yield an output range of Oto +10.00 VDC. The OAC's shall have the further capability to accept the digital codes corresponding to the range of +/-10.00 voe at amp output and to nally scale and bias that input to yield an output range of-1.25 voe to' +11.25 voe (at DAC output) so that an off-scale process input may be represented by an-equally off-scale DAC output. e. The DAC output impedance shall be 10.0 ohms maximum. f. The output of each OAC shall be capable of being grounded or shorted indefinitely without damage to the DAC or in any way affecting the remainder of the system. g. The output of each OAC shall be capable of being connected ly to either +/-125 voe or to 120 VAC without damage to the remainder of the system. Irrepairable damage to the DAC module is acceptable.
- h. Each DAC shall be capable of driving a resistive load of 1500 ohms. i. Each DAC shall be capable of accepting an input of between 16 and 23,800 samples per second and have a linear frequency response from DC to 1000 Hz minimum. j. Accuracy of each OAe, from digital input to analog output shall be 0.15% of full scale. 4.4.3 Mechanical Specifications Specifications listed in Section 3.4 of this document shall apply to this component unless otherwise stated below.
- a. MC314 Module Case Each module case shall be capable of housing up to eight DAC's and a plug-in power_supply.
Dimensions of the module case shall be: Width Height Depth 4.4.4 Qualification Requirements None 19.0 inches 10.5 inches 14.0 inches *.~*~Rev.*
2 7/2? /80