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Data Delivery Devices VHF, UHF & ISM Wireless RTU RFScada 8ADI-9DO 4ADI-5DO User Manual

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    							RFScada 8ADI-9DO/4ADI-5DO Manual Ver 3.6 Copyright ©2005 Data Delivery Devices LLC Page - 91 – Bartlesville OK Tel 918-335-3318      FAX 918-398-9990 
Register 614 contains the Modbus ‘silent interval’ time setting, in milliseconds. Modbus RTU 
messages start and end with a silent interval of at least 3.5 character times, which for a baud rate of 
9600 bps is approximately 4mS. The RFScada units are capable of reading the Modbus message, 
acting on the message, formulating a reply, then start transmitting it back to the Modbus master 
device as soon as this 4mS time expires. The RFScada units are also capable of monitoring the 
Modbus data and detecting a gap between bytes in a message that is 5 mS in length for example. 
Normally Modbus messages from a Master, such as a local PC, will have correctly formed data 
packets without any gaps between bytes. However, if there are gaps between bytes of more than 
4mS the RFScada units may assume the packet has ended, process it and since the packet is not 
complete the RFScada unit ignores the packet and does not reply. The Modbus master then signals 
an error reporting that the RFScada device did not reply to a Modbus message, when in fact a legal 
Modbus packet was not presented to the RFScada device. This type of error seldom occurs on 
modern PC systems with local connections, however it often occurs when a telephone modem or 
similar device is between units on a Modbus network. Even short packets of data sent directly 
between two modems often result in smaller bursts of data at the receiving modem, separated by 
gaps of several milliseconds. The problem may also occur when some RS-485 interface devices are 
used that incorporate ‘automatic transmit enable’ circuits; these devices often use simple RC timing 
circuits to enable the driver output, with the result being they may still be driving the Modbus 
connection and corrupting data several milliseconds after the bus should have been released, when 
the RFScada unit is trying to send a reply.  
To overcome these problems the user may set a silent interval in register 614. It can be from 4 
up to 255 milliseconds, with the default set at 40. Extending it will delay a response to the Modbus 
master, so it should not be extended too long, or the Modbus masters own timeout settings may need 
to be extended. 
 
 
 
If this delay is set to very small values Modbus communication problems may 
occur, especially with remote modems and similar devices. It is possible to 
completely lose remote Modbus communications, and lose the capability to 
change the configuration back! If this occurs a direct serial connection may be 
required to regain Modbus control and return modified registers, such as register 614, 
back to values that allow functionality with connected equipment. 
For this reason if an RFScada device is accessed via Modbus address 99 
(0x63 Hex) it will ignore the users silent time setting and use its own setting of 
100mS, therefore allowing communication with most standard devices including 
remote modems. This gives the user (and the RFScada configuration program) a 
means to restore settings that have been changed to inoperative ones. 
Therefore, if changes in the silent time are required a Modbus address other than 
99 must be used. 
 
 
 If this register really needs adjusting from a remote location use caution and test any changes 
before writing them to EEPROM, so cycling power can also restore original settings. Under normal 
circumstances there should be no reason to change this value. 
 
Register 615 contains the identity of any special control mode operating, it is zero for normal 
operation.  
Register 1000 contains the hop pattern of the unit, it is read only and set at the factory. 
Register 1001 contains the serial number of the unit, it is read only and set at the factory. 
Register 1002 contains the number of channels this unit physically supports, it is read only and 
set at the factory. It is not related to the optional plug in boards. 
Warning !
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Register 1003 contains the software version of the RFScada unit, again read only. Units do not 
need to have identical software versions to communicate. 
Registers 1004 to 1013 contain additional factory settings that are specific to the type of radio 
installed. 
Register 3318 is the Modbus and configuration settings control register. All Modbus registers 
that may be written to will become effective as soon as they are written, there are no delays or power 
cycles required. The registers are volatile however, so changes in configuration made via Modbus will 
be lost when power is removed unless they are permanently stored in the RFScada non volatile 
memory. Register 3318 allows the current setting to be permanently saved in EEPROM memory, and 
they will be read back from EEPROM memory when power is restored to the unit. All registers may 
also be set to default settings here. To set all configuration settings to default values write the value 
1234 decimal (0x04D2 hex) to register 3318. To permanently store the present  settings in the 
RFScada EEPROM memory write the decimal value 5678 decimal (0x162E hex) to register 3318.  
       
It takes several seconds to store all the settings 
in the RFScada non-volatile memory. The yellow 
system LED (near the center of the board) on 
the RFScada unit will flash rapidly during the storage 
process. After receiving the ‘write EEPROM’ command 
the RFScada unit will not respond to any Modbus 
messages until it has finished the write process, and a 
‘Modbus timeout’ error message may occur on the 
Modbus master. This is normal and should not be 
interpreted as an error.  After writing all settings verify 
correct operation before final connection.   
 
The RFScada configuration program communicates to the units via Modbus. Modbus 
traffic to and from the units may be viewed in the bottom of the register display screen by 
turning on the ‘view Modbus data’ setting in the menu. To view the existing settings the 
configuration program may be used to read a units settings, then save the settings to a file. 
The saved file is simply a list of the Modbus register address followed by its contents.    
 
 
Complete RFScada Modbus Map. 
 
0    Unit 0  Bits 0-7 Digital Inputs, Bit 8 = COMM OK 1    Unit 0  Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA  2    Unit 0  Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 3    Unit 0  Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 4    Unit 0  Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 5    Unit 0  Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 6    Unit 0  Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 7    Unit 0  Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 8    Unit 0  Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 9    Unit 0  DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 10   Unit 1  Bits 0-7 Digital Inputs, Bit 8 = COMM OK 11   Unit 1  Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 12   Unit 1  Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 13   Unit 1  Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 14   Unit 1  Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 15   Unit 1  Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 16   Unit 1  Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 17   Unit 1  Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 18   Unit 1  Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 19   Unit 1  DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 20   Unit 2  Bits 0-7 Digital Inputs, Bit 8 = COMM OK 21   Unit 2  Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 22   Unit 2  Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 23   Unit 2  Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA
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24   Unit 2  Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 25   Unit 2  Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 26   Unit 2  Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 27   Unit 2  Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 28   Unit 2  Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 29   Unit 2  DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 30   Unit 3  Bits 0-7 Digital Inputs, Bit 8 = COMM OK 31   Unit 3  Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 32   Unit 3  Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 33   Unit 3  Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 34   Unit 3  Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 35   Unit 3  Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 36   Unit 3  Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 37   Unit 3  Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 38   Unit 3  Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 39   Unit 3  DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 40   Unit 4  Bits 0-7 Digital Inputs, Bit 8 = COMM OK 41   Unit 4  Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 42   Unit 4  Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 43   Unit 4  Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 44   Unit 4  Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 45   Unit 4  Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 46   Unit 4  Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 47   Unit 4  Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 48   Unit 4  Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 49   Unit 4  DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 50   Unit 5  Bits 0-7 Digital Inputs, Bit 8 = COMM OK 51   Unit 5  Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 52   Unit 5  Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 53   Unit 5  Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 54   Unit 5  Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 55   Unit 5  Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 56   Unit 5  Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 57   Unit 5  Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 58   Unit 5  Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 59   Unit 5  DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 60   Unit 6  Bits 0-7 Digital Inputs, Bit 8 = COMM OK 61   Unit 6  Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 62   Unit 6  Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 63   Unit 6  Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 64   Unit 6  Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 65   Unit 6  Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 66   Unit 6  Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 67   Unit 6  Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 68   Unit 6  Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 69   Unit 6  DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 70   Unit 7  Bits 0-7 Digital Inputs, Bit 8 = COMM OK 71   Unit 7  Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 72   Unit 7  Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 73   Unit 7  Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 74   Unit 7  Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 75   Unit 7  Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 76   Unit 7  Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 77   Unit 7  Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 78   Unit 7  Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 79   Unit 7  DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 80   Unit 8  Bits 0-7 Digital Inputs, Bit 8 = COMM OK 81   Unit 8  Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 82   Unit 8  Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 83   Unit 8  Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 84   Unit 8  Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 85   Unit 8  Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 86   Unit 8  Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 87   Unit 8  Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 88   Unit 8  Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 89   Unit 8  DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 90   Unit 9  Bits 0-7 Digital Inputs, Bit 8 = COMM OK 91   Unit 9  Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 92   Unit 9  Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 93   Unit 9  Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA
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94   Unit 9  Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 95   Unit 9  Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 96   Unit 9  Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 97   Unit 9  Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 98   Unit 9  Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 99   Unit 9  DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 100  Unit 10 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 101  Unit 10 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 102  Unit 10 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 103  Unit 10 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 104  Unit 10 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 105  Unit 10 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 106  Unit 10 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 107  Unit 10 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 108  Unit 10 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 109  Unit 10 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 110  Unit 11 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 111  Unit 11 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 112  Unit 11 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 113  Unit 11 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 114  Unit 11 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 115  Unit 11 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 116  Unit 11 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 117  Unit 11 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 118  Unit 11 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 119  Unit 11 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 120  Unit 12 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 121  Unit 12 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 122  Unit 12 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 123  Unit 12 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 124  Unit 12 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 125  Unit 12 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 126  Unit 12 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 127  Unit 12 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 128  Unit 12 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 129  Unit 12 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 130  Unit 13 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 131  Unit 13 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 132  Unit 13 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 133  Unit 13 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 134  Unit 13 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 135  Unit 13 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 136  Unit 13 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 137  Unit 13 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 138  Unit 13 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 139  Unit 13 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 140  Unit 14 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 141  Unit 14 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 142  Unit 14 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 143  Unit 14 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 144  Unit 14 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 145  Unit 14 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 146  Unit 14 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 147  Unit 14 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 148  Unit 14 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 149  Unit 14 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 150  Unit 15 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 151  Unit 15 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 152  Unit 15 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 153  Unit 15 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 154  Unit 15 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 155  Unit 15 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 156  Unit 15 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 157  Unit 15 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 158  Unit 15 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 159  Unit 15 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 160  Unit 16 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 161  Unit 16 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 162  Unit 16 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 163  Unit 16 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA
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164  Unit 16 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 165  Unit 16 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 166  Unit 16 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 167  Unit 16 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 168  Unit 16 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 169  Unit 16 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 170  Unit 17 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 171  Unit 17 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 172  Unit 17 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 173  Unit 17 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 174  Unit 17 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 175  Unit 17 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 176  Unit 17 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 177  Unit 17 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 178  Unit 17 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 179  Unit 17 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 180  Unit 18 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 181  Unit 18 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 182  Unit 18 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 183  Unit 18 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 184  Unit 18 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 185  Unit 18 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 186  Unit 18 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 187  Unit 18 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 188  Unit 18 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 189  Unit 18 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 190  Unit 19 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 191  Unit 19 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 192  Unit 19 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 193  Unit 19 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 194  Unit 19 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 195  Unit 19 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 196  Unit 19 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 197  Unit 19 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 198  Unit 19 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 199  Unit 19 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 200  Unit 20 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 201  Unit 20 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 202  Unit 20 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 203  Unit 20 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 204  Unit 20 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 205  Unit 20 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 206  Unit 20 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 207  Unit 20 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 208  Unit 20 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 209  Unit 20 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 210  Unit 21 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 211  Unit 21 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 212  Unit 21 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 213  Unit 21 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 214  Unit 21 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 215  Unit 21 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 216  Unit 21 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 217  Unit 21 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 218  Unit 21 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 219  Unit 21 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 220  Unit 22 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 221  Unit 22 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 222  Unit 22 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 223  Unit 22 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 224  Unit 22 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 225  Unit 22 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 226  Unit 22 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 227  Unit 22 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 228  Unit 22 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 229  Unit 22 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 230  Unit 23 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 231  Unit 23 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 232  Unit 23 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 233  Unit 23 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA
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234  Unit 23 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 235  Unit 23 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 236  Unit 23 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 237  Unit 23 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 238  Unit 23 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 239  Unit 23 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 240  Unit 24 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 241  Unit 24 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 242  Unit 24 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 243  Unit 24 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 244  Unit 24 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 245  Unit 24 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 246  Unit 24 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 247  Unit 24 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 248  Unit 24 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 249  Unit 24 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 250  Unit 25 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 251  Unit 25 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 252  Unit 25 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 253  Unit 25 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 254  Unit 25 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 255  Unit 25 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 256  Unit 25 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 257  Unit 25 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 258  Unit 25 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 259  Unit 25 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 260  Unit 26 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 261  Unit 26 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 262  Unit 26 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 263  Unit 26 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 264  Unit 26 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 265  Unit 26 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 266  Unit 26 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 267  Unit 26 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 268  Unit 26 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 269  Unit 26 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 270  Unit 27 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 271  Unit 27 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 272  Unit 27 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 273  Unit 27 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 274  Unit 27 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 275  Unit 27 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 276  Unit 27 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 277  Unit 27 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 278  Unit 27 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 279  Unit 27 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 280  Unit 28 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 281  Unit 28 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 282  Unit 28 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 283  Unit 28 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 284  Unit 28 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 285  Unit 28 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 286  Unit 28 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 287  Unit 28 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 288  Unit 28 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 289  Unit 28 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 290  Unit 29 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 291  Unit 29 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 292  Unit 29 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 293  Unit 29 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 294  Unit 29 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 295  Unit 29 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 296  Unit 29 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 297  Unit 29 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 298  Unit 29 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 299  Unit 29 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 300  Unit 30 Bits 0-7 Digital Inputs, Bit 8 = COMM OK 301  Unit 30 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 302  Unit 30 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 303  Unit 30 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA
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    							RFScada 8ADI-9DO/4ADI-5DO Manual Ver 3.6 Copyright ©2005 Data Delivery Devices LLC Page - 97 – Bartlesville OK Tel 918-335-3318      FAX 918-398-9990 
304  Unit 30 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 305  Unit 30 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 306  Unit 30 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 307  Unit 30 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 308  Unit 30 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 309  Unit 30 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 310  Unit 31 its 0-7 Digital Inputs, Bit 8 = COMM OK 311  Unit 31 Analog 1 10 bit result. 0 = 0 mA, 1023 = 20mA 312  Unit 31 Analog 2 10 bit result. 0 = 0 mA, 1023 = 20mA 313  Unit 31 Analog 3 10 bit result. 0 = 0 mA, 1023 = 20mA 314  Unit 31 Analog 4 10 bit result. 0 = 0 mA, 1023 = 20mA 315  Unit 31 Analog 5 10 bit result. 0 = 0 mA, 1023 = 20mA 316  Unit 31 Analog 6 10 bit result. 0 = 0 mA, 1023 = 20mA 317  Unit 31 Analog 7 10 bit result. 0 = 0 mA, 1023 = 20mA 318  Unit 31 Analog 8 10 bit result. 0 = 0 mA, 1023 = 20mA 319  Unit 31 DC Voltage 10 bit, 1023 = 51.1 Volts DC (approx) 320  Unit  0 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 321  Unit  0 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      322  Unit  0 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      323  Unit  0 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      324  Unit  1 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 325  Unit  1 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      326  Unit  1 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      327  Unit  1 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      328  Unit  2 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 329  Unit  2 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      330  Unit  2 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      331  Unit  2 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      332  Unit  3 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 333  Unit  3 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      334  Unit  3 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      335  Unit  3 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      336  Unit  4 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 337  Unit  4 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      338  Unit  4 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      339  Unit  4 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      340  Unit  5 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 341  Unit  5 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      342  Unit  5 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      343  Unit  5 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      344  Unit  6 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 345  Unit  6 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      346  Unit  6 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      347  Unit  6 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      348  Unit  7 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 349  Unit  7 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      350  Unit  7 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      351  Unit  7 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      352  Unit  8 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 353  Unit  8 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      354  Unit  8 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      355  Unit  8 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      356  Unit  9 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 357  Unit  9 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      358  Unit  9 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      359  Unit  9 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      360  Unit 10 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 361  Unit 10 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      362  Unit 10 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      363  Unit 10 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      364  Unit 11 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 365  Unit 11 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      366  Unit 11 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      367  Unit 11 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      368  Unit 12 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 369  Unit 12 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      370  Unit 12 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      371  Unit 12 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      372  Unit 13 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 373  Unit 13 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel
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374  Unit 13 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      375  Unit 13 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      376  Unit 14 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 377  Unit 14 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      378  Unit 14 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      379  Unit 14 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      380  Unit 15 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 381  Unit 15 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      382  Unit 15 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      383  Unit 15 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      384  Unit 16 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 385  Unit 16 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      386  Unit 16 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      387  Unit 16 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      388  Unit 17 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 389  Unit 17 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      390  Unit 17 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      391  Unit 17 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      392  Unit 18 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 393  Unit 18 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      394  Unit 18 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      395  Unit 18 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      396  Unit 19 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 397  Unit 19 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      398  Unit 19 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      399  Unit 19 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      400  Unit 20 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 401  Unit 20 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      402  Unit 20 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      403  Unit 20 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      404  Unit 21 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 405  Unit 21 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      406  Unit 21 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      407  Unit 21 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      408  Unit 22 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel      409  Unit 22 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      410  Unit 22 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      411  Unit 22 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel 412  Unit 23 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel      413  Unit 23 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      414  Unit 23 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      415  Unit 23 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      416  Unit 24 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel      417  Unit 24 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      418  Unit 24 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel 419  Unit 24 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      420  Unit 25 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel      421  Unit 25 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      422  Unit 25 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      423  Unit 25 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      424  Unit 26 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel      425  Unit 26 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel 426  Unit 26 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      427  Unit 26 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel 428  Unit 27 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel      429  Unit 27 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      430  Unit 27 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      431  Unit 27 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel      432  Unit 28 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel      433  Unit 28 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel      434  Unit 28 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel      435  Unit 28 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel 436  Unit 29 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 437  Unit 29 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel 438  Unit 29 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel 439  Unit 29 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel 440  Unit 30 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 441  Unit 30 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel 442  Unit 30 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel 443  Unit 30 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel
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444  Unit 31 Relay 1 & 2 digital source byte, LS byte = Relay 1; MS 5 bits = source ID, LS 3 bits = source channel 445  Unit 31 Relay 3 & 4 digital source byte, LS byte = Relay 3; MS 5 bits = source ID, LS 3 bits = source channel 446  Unit 31 Relay 5 & 6 digital source byte, LS byte = Relay 5; MS 5 bits = source ID, LS 3 bits = source channel 447  Unit 31 Relay 7 & 8 digital source byte, LS byte = Relay 7; MS 5 bits = source ID, LS 3 bits = source channel 448  Unit  0 Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 449  Unit  0  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   450  Unit  0  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   451  Unit  0  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   452  Unit  1  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 453  Unit  1  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   454  Unit  1  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   455  Unit  1  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   456  Unit  2  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 457  Unit  2  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   458  Unit  2  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   459  Unit  2  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   460  Unit  3  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 461  Unit  3  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   462  Unit  3  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   463  Unit  3  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   464  Unit  4  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 465  Unit  4  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   466  Unit  4  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   467  Unit  4  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   468  Unit  5  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 469  Unit  5  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   470  Unit  5  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   471  Unit  5  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   472  Unit  6  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 473  Unit  6  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   474  Unit  6  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   475  Unit  6  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   476  Unit  7  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 477  Unit  7  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   478  Unit  7  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   479  Unit  7  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   480  Unit  8  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 481  Unit  8  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   482  Unit  8  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   483  Unit  8  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   484  Unit  9  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 485  Unit  9  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   486  Unit  9  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   487  Unit  9  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   488  Unit 10  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 489  Unit 10  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   490  Unit 10  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   491  Unit 10  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   492  Unit 11  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 493  Unit 11  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   494  Unit 11  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   495  Unit 11  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   496  Unit 12  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 497  Unit 12  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   498  Unit 12  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   499  Unit 12  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   500  Unit 13  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 501  Unit 13  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   502  Unit 13  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   503  Unit 13  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   504  Unit 14  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 505  Unit 14  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   506  Unit 14  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   507  Unit 14  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   508  Unit 15  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 509  Unit 15  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   510  Unit 15  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   511  Unit 15  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   512  Unit 16  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 513  Unit 16  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel
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    							RFScada 8ADI-9DO/4ADI-5DO Manual Ver 3.6 Copyright ©2005 Data Delivery Devices LLC Page - 100 – Bartlesville OK Tel 918-335-3318      FAX 918-398-9990 
514  Unit 16  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   515  Unit 16  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   516  Unit 17  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 517  Unit 17  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   518  Unit 17  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   519  Unit 17  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   520  Unit 18  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 521  Unit 18  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   522  Unit 18  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   523  Unit 18  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   524  Unit 19  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 525  Unit 19  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   526  Unit 19  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   527  Unit 19  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   528  Unit 20  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 529  Unit 20  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   530  Unit 20  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   531  Unit 20  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   532  Unit 21  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 533  Unit 21  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   534  Unit 21  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   535  Unit 21  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   536  Unit 22  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 537  Unit 22  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   538  Unit 22  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   539  Unit 22  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   540  Unit 23  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 541  Unit 23  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   542  Unit 23  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   543  Unit 23  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   544  Unit 24  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 545  Unit 24  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   546  Unit 24  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   547  Unit 24  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   548  Unit 25  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 549  Unit 25  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   550  Unit 25  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   551  Unit 25  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   552  Unit 26  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 553  Unit 26  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   554  Unit 26  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   555  Unit 26  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   556  Unit 27  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 557  Unit 27  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   558  Unit 27  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   559  Unit 27  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   560  Unit 28  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 561  Unit 28  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   562  Unit 28  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   563  Unit 28  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   564  Unit 29  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 565  Unit 29  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   566  Unit 29  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   567  Unit 29  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   568  Unit 30  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 569  Unit 30  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   570  Unit 30  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   571  Unit 30  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   572  Unit 31  Analog 1 & 2 output source bytes, LS byte = Analog 1; MS 5 bits = source ID, LS 3 bits = source channel 573  Unit 31  Analog 3 & 4 output source bytes, LS byte = Analog 3; MS 5 bits = source ID, LS 3 bits = source channel   574  Unit 31  Analog 5 & 6 output source bytes, LS byte = Analog 5; MS 5 bits = source ID, LS 3 bits = source channel   575  Unit 31  Analog 7 & 8 output source bytes, LS byte = Analog 7; MS 5 bits = source ID, LS 3 bits = source channel   576  Unit  0 (Master) Configuration Register. Always 1 for enabled 577  Unit  1 Configuration Register. Bit 0 = 1 for enabled, 0 disabled 578  Unit  2 Configuration Register. Bit 0 = 1 for enabled, 0 disabled 579  Unit  3 Configuration Register. Bit 0 = 1 for enabled, 0 disabled 580  Unit  4 Configuration Register. Bit 0 = 1 for enabled, 0 disabled 581  Unit  5 Configuration Register. Bit 0 = 1 for enabled, 0 disabled 582  Unit  6 Configuration Register. Bit 0 = 1 for enabled, 0 disabled 583  Unit  7 Configuration Register. Bit 0 = 1 for enabled, 0 disabled
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