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Yokogawa Data Acquisition with PID Control CX2000 User Manual

Page 305

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App-46

IM 04L31A01-17E

Appendix 6 Register Assignments

*5 The figure below shows the alarm status of the measured data and computed data. The register

contains 16-bit signed integer data in the following order: alarm number 2/alarm number 1/alarm
number 4/alarm number 3. Each alarm number uses 4 bits to specify a value in the range of 0 to
8. Values 0 to 8 correspond to high-limit alarm, low-limit alarm, difference high-limit alarm,
difference low-limit alarm, high limit on rate-of-change alarm, low limit on rate-of-change alarm,
delay high-limit alarm, and delay low-limit alarm, respectively. When the data is read using
ladder communications, the 16-bit signed data converted to BCD is returned. Therefore, the
host computer must convert the value to 16-bit signed integer.

Number 2

Number 1

Number 3

Number 4

High byte

Low byte

1 word

*6 The figure below shows the alarm status of the control data. Each alarm number uses 1 byte.

Since total of 4 bytes are used, 2 registers are used. The first register contains data in the
following order: alarm number 2/alarm number 1. The second register contains data in the
following order: alarm number 4/alarm number 3. Each alarm number uses 8 bits to specify a
value of 0 or a value in the range of 21 to 30. The value 0 corresponds to alarm OFF. Values 21
to 30 correspond to PV high-limit alarm, PV low-limit alarm, deviation high-limit alarm, deviation
low-limit alarm, deviation high & low limit alarm, deviation within high & low limits alarm (alarms
up to this point are entered in channels 101, 104, 107, and so on that indicate the PV value of
each loop), SP high-limit alarm, SP low-limit alarm (these two alarms are entered in channels
102, 105, 108, and so on that indicate the SP value of each loop), output high-limit alarm, and
output low-limit alarm (these two alarms are entered in channels 103, 106, 109, and so on that
indicate the OUT value of each loop), respectively. Like *5, the BCD data read from a register
must be converted to a 16-bit signed integer.

Number 4

Number 3

High byte

Low byte

1 word

Number 2

Number 1

High byte

Low byte

1 word

*7 The measured data alarm statuses of registers D7601 to D7605, and the computed data alarm

statuses of registers D7606 to D7613 indicate the statuses of alarm numbers 1 to 4 of each
channel using the bit status of the register (16 bits). If the status of alarm numbers 1 to 4 of each
channel is ON, the corresponding bit is set to 1 regardless of the alarm type. When the data is
read using ladder communications, the 16-bit signed data converted to BCD is returned. Therefore, the
host computer must convert the value to 16-bit signed integer.

0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15

Alarm number 1 of CH01
Alarm number 2 of CH01
Alarm number 3 of CH01
Alarm number 4 of CH01
Alarm number 1 of CH02
Alarm number 2 of CH02
Alarm number 3 of CH02
Alarm number 4 of CH02
Alarm number 1 of CH03
Alarm number 2 of CH03
Alarm number 3 of CH03
Alarm number 4 of CH03
Alarm number 1 of CH04
Alarm number 2 of CH04
Alarm number 3 of CH04
Alarm number 4 of CH04

0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON
0: Alarm OFF, 1: Alarm ON

Bit

Bit Status and Alarm Status

Corresponding Alarm

Bit Configuration of Register D7601