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TABLE 3-5 NCD-106 ADDRESSABLE A/D DIGITAL INPUT/OUTPUT CONTROL DEVICE NAME/ADDRESS PROGRAMMING NAME/ADDRESS PROGRAMMING NAME N2 N1
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Thirty-Two-Channel Serial Input Scanner Alarm System
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The 32-channel serial input scanner/alarm system is a unique system that can be used to monitor up to 32 channels i.e., inputs or on/off conditions over a single serial wire or wireless link. You could monitor 32 alarm conditions via a low-power wireless link and report this information back to a STAMP 2 set up as an alarm controller. The STAMP could then be used to display each channel via an LCD panel and sound an alarm if desired. The heart of the 32-channel monitor system is an NCD-102 addressable parallel-to-serial converter chip, shown in Fig. 3-17. The NCD is a preprogrammed microcontroller designed to perform high-speed parallel-to-serial encoding from a standard serial source. The NCD-102 can be chained to four other NCD-102s to form a 32-channel monitoring system. The NCD-102 is a polled device operating in a speak when spoken to mode. Name jumpers are used to determine the input s identity in the system or network. When a valid name and carriage return are received by the NCD-102, the device reads the current status of each of the eight pins and replies with a byte of data. The unique NCD-102 only uses four external parts per chip. Two 10-k resistors are used for programming. Jumpers are set up to four possible combinations. A ceramic resonator is used to set the speed or baud rate of the NCD-102. Four speeds can be set, from 1200 to 9600 baud. The fourth component is a 22-k series resistor at pin 2. The converter is powered from a 5-Vdc source at pin 3 and 4. System ground is found on pin 5. Four converter chips can be connected together to form a 32-channel system. Note that the outputs from the converters must be ORed together as shown, and each NCD-102 should have its own name in the system via the programming pins. The RS-232 ground system must be shared with the ground of the circuit. This system is a three-wire system; i.e., it has ASCII input for serial inquiry and ASCII output for information of received data and ground. In order to turn on a pin, you would use the format NAME RETURN . An example would be A RETURN ; this would tell the NCD converter named A to read pins and reply with a byte of data (see Table 3-4 and App. 1). By combining four NCD converters together, you can develop a powerful monitoring system for watching various on/off sensors such as doors, windows, and comparator outputs. These converter devices are a great building block in creating a complex control system.
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MULTICHANNEL REMOTE SERIAL I/O SYSTEM 57
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TABLE 3-6 NCD-106 ADDRESSABLE A/D DIGITAL INPUT/OUTPUT CONTROL DEVICE NAME/ADDRESS PROGRAMMING SERIAL CONTROL COMMANDS
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Send analog input commands: Format: Example: Action: NAME A CHANNEL RETURN
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Tell NCD-106 named P to read A analog input 1 reply with byte of data
Send digital input status: Format: Example: Action: NAME RETURN
p RETURN Tell NCD-106 named p to read digital inputs
Turn on a digital output: Format: Example: Action: NAME N RETURN pN1 RETURN Tell NCD-106 named p to turn on output 1
Turn off a digital output: Format: Example Action: NAME F RETURN pF1 RETURN Tell NCD-106 named p to turn off output 1
Output a byte to digital outputs: Format: Example: Action: NAME P BYTE pP0 RETURN Tell NCO-106 named p to send a byte ASCII RETURN
Multichannel Remote Serial I/O System
The multichannel remote serial I/O system is a an extremely powerful system building block in forming a complex monitoring system. This multichannel control and reporting system centers around an NCD-106 preprogrammed microprocessor. The NCD-106 combines two-channel, 8-bit A/D converters, three input and four output channels all in one chip. The NCD-106 can be interrogated via a standard serial port and will monitor analog
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