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24V DC (20.4V DC ~ 28.8V DC) (-15% ~ +20%), 3.5W,
0°C ~ 55°C 50 ~ 95% 2
-25°C ~ 70°C 5 ~ 95%
IEC 61131-2, IEC 68-2-6 (TEST Fc)/IEC 61131-2 & IEC 68-2-27 (TEST Ea)
CR
CR
RS-485
b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0
#0 H’40C8 R
DVP06XA-H2 = H’6604
CH6 CH5 CH4 CH3 CH2 CH1
#1 H’40C9 R/W
(CH1 ~ CH4)
0 (-10V ~ +10V) H’0000
1 (-6V ~ +10V)
2 (-12mA ~ +20mA)
3 (-20mA ~ +20mA)
(CH5 ~ CH6)
0 (0V ~ 10V) 1 (2V ~ 10V)
2 (4mA ~ 20mA) 3 (0mA ~ 20mA)
CR#1 b0 ~ b11 (AD)
CH1 ~ CH4 CH1 0 (b2 ~ b0 = 000) CH2 1 (b5 ~ b3 = 001) CH3 2 (b8 ~ b6 = 010)
CH4 3 (b11 ~ b9 = 011) b0 ~ b11 H’688 b12 ~ b15 (DA)
CH5 ~ CH6 CH5 2 (b13 ~ b12 = 10) CH6
1 (b15 ~ b14 = 01) b12 ~ b15 H5
#2 H’40CA R/W
CH1
#3 H’40CB R/W
CH2
#4 H’40CC R/W
CH3
#5 H’40CD R/W
CH4
CH1 ~ CH4 K1 ~ K20
K10
CR#2 ~ CR#5
#6 H’40CE
R CH1
#7 H’40CF
R CH2
#8 H’40D0
R CH3
#9 H’40D1
R CH4
CH1 ~ CH4
10 10 CH1 ~ CH4
#10 H’40D2
R/W
CH5
#11 H’40D3
R/W
CH6
CH5 ~ CH6 K0 ~ K4,000
K0 LSB
#12 H’40D4
R CH1
#13 H’40D5
R CH2
#14 H’40D6
R CH3
#15 H’40D7
R CH4
CH1 ~ CH4
#18 H’40DA R/W
CH1 OFFSET
#19 H’40DB R/W
CH2 OFFSET
#20 H’40DC R/W
CH3 OFFSET
#21 H’40DD R/W
CH4 OFFSET
CH1 ~ CH4 OFFSET K0 LSB
K-1,000 ~K1,000
K-1,000 ~K1,000
#22 H’40DE R/W
CH5 OFFSET
#23 H’40DF R/W
CH6 OFFSET
CH5 ~ CH6 OFFSET K-2,000 ~ K2,000
K0 LSB
#24 H’40E0 R/W
CH1 GAIN
#25 H’40E1 R/W
CH2 GAIN
#26 H’40E2 R/W
CH3 GAIN
CH1 ~ CH4 GAIN K1,000 LSB
K-800 ~ K4,000
K-800 ~ K2,600
#27 H’40E3 R/W
CH4 GAIN
CR#24 ~ CR#27 GAIN - OFFSET = +200
LSB
~ +3,000
LSB
+200
LSB
~ +1,600
LSB
#28 H’40E4 R/W
CH5 GAIN
#29 H’40E5 R/W
CH6 GAIN
CH5 ~ CH6 GAIN K0 ~ K4,000
K2,000 LSB
CR#28 ~ CR#29 GAIN - OFFSET = +400
LSB
~ +6,000
LSB
#30 H’40E6
R
CR#30
b15 ~ b8 b7 b6 b5 b4 b3 b2 b1 b0
K1 (H’1) 0 0 0 0 0 0 0 1
K2 (H’2) 0 0 0 0 0 0 1 0
K4 (H’4) 0 0 0 0 0 1 0 0
OFFSET/GAIN K8 (H’8) 0 0 0 0 1 0 0 0
K16 (H’10) 0 0 0 1 0 0 0 0
K32 (H’20) 0 0 1 0 0 0 0 0
K64 (H’40) 0 1 0 0 0 0 0 0
K128 (H’80)
1 0 0 0 0 0 0 0
b0 ~ b7 0 1
4,000 (K2) 10V (K32)
(K2) A/D
#31 H’40E7 R/W
RS-485 01 ~ 254 K1
#32 H’40E8 R/W
4,800 ~ 115,200 bps b0 4,800 bps b1 9,600 bps
b2 19,200 bps b3 38,400 bps b4 57,600 bps b5 115,200
bps b6 ~ b13 b14 CRC RTU
b15 = 0 ASCII b15 = 1 RTU ASCII 7-bit
1 stop bit (7, E, 1) RTU 8-bit 1 stop
bit (8, E, 1) H’0002
b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0
CH6 CH5 CH4 CH3 CH2 CH1
#33 H’40E9 R/W
H’0000, CH1 ~ CH4 CH1
1. b0 0 CH1 CR#18, CR#24 b0
1 CH1 CR#18, CR#24
2. b1 b1 = 0
b1 = 1( )
3. b2 1 ,
CH5 ~ CH6 CH5 b13, b12
00 01
10 11 b13, b12 0
CR#33
#34 H’40EA R 16 1.0A H’010A
#35 ~ #48
RS-485
R FROM , W TO RS-485
LSB (Least Significant Bit)
1
LSB
= 10V/2,000 = 5mV 1
LSB
= 20mA/1,000 = 20µA
1
LSB
= 10V/4,000 = 2.5mV 1
LSB
= 20mA/4,000 = 5µA
CR#0 ~ CR#34 H’40C8 ~ H’40EA RS-485 RS-485
1.
4,800/9,600/19,200/38,400/57,600/115,200 bps
2. Modbus ASCII /RTU ASCII 7bit 1 stop bit (7, E, 1)
RTU 8 bits 1 stop bit (8, E, 1)
3. (Function) H’03 H’06 word H’10 word
4. CR RS-485 TO/DTO
CH1 ~ CH4 A/D
CR#1 0 GAIN = 5V (1,000
LSB
). OFFSET = 0V (0
LSB
).
CR#1 1
GAIN = 6V (1,200
LSB
). OFFSET = 2V (400
LSB
).
GAIN
K4,000
-800
LSB
~ +4,000
LSB
OFFSET
K0
-1,000
LSB
~ +1,000
LSB
+2,000
+1,000
-1,000
10V
-2,000
-6V
-10V
6V
5V
2V0
1
0
GAIN
OFFSET
GAIN - OFFSET +200
LSB
~ +3,000
LSB
CR#1 2
GAIN = 20mA (1,000
LSB
). OFFSET = 4mA (200
LSB
).
CR#1 3
GAIN = 20mA (1,000
LSB
). OFFSET = 0mA (0
LSB
).
GAIN
K1,000
-800
LSB
~ +2,600
LSB
OFFSET
K0
-1,000
LSB
~ +1,000
LSB
+1,000
-1,000
-12mA
-20mA
4mA
0
2
3
OFFS ET
20mA
GA IN
GAIN - OFFSET +200
LSB
~ +1,600
LSB
A/D
OFFSET (CR#18 ~ CR#21) GAIN (CR#24 ~ CR#27)
CH5 ~ CH6 D/A
CR#1 0
GAIN = 5V (2,000
LSB
). OFFSET = 0V (0
LSB
).
CR#1 1
GAIN = 6V (2,400
LSB
). OFFSET = 2V (800
LSB
).
GAIN
K2,000
0
LSB
~ +4,000
LSB
OFFSET
K0
-2,000
LSB
~ +2,000
LSB
0
1
0
+2,000
+4,000
2V
5V
6V
10 V
OFFSE T
GA IN
GAIN - OFFSET
+400
LSB
~ +6,000
LSB
CR#1 2
GAIN = 12mA (2,400
LSB
). OFFSET = 4mA (800
LSB
).
CR#1 3
GAIN = 10mA (2,000
LSB
). OFFSET = 0mA (0
LSB
).
GAIN
K2,000
0
LSB
~ +4,000
LSB
OFFSET
K0
-2,000
LSB
~ +2,000
LSB
3
2
0
+2,000
+4,000
20m A
OFFSE T
GAIN
10m A
4mA
GAIN - OFFSET
+400
LSB
~ +6,000
LSB
D/A
OFFSET (CR#14 ~ CR#15) GAIN (CR#18 ~ CR#19)
(OPEN TYPE)
DVP DVP06XA-H2 / 4
12 PLC 2 12
2
±10V DC 5mV
±20mA 20µA
0V ~ +10V DC
2.5mV 0mA ~ 20mA 5µA
mm
D - V + I + CO M
24V 0V
V + I + V + I + CO M
D + V +
8
CH2 CH4 CH6RS- 485
I + V + I + CO M V + I +
CH 1 CH 3 CH 5
1
DIN (35mm)
6
2
/
7
3
8
4
9
5
DIN
CH1
100K
250
*1
-10V~+1 0V
V+
I+
CO M
CH1
100K
CH4
100K
250
1*
-20mA ~+20mA
V+
I+
CO M
CH4
100K
*3
*2
AG
AG
1
2 V+ I+
3
0.1 ~ 0.47µF 25V
V+
I+
CO M
CH 5
*1
0V ~+1 0V
*5
CH 5
V+
I+
CO M
CH 6
*4
0mA ~2 0mA
CH 6
24 +
24 -
10 0
DC 24V
DC /DC
+1 5V
-1 5V
AG
4
5
0.1 ~ 0.47µF
25V
6 DVP06XA-H2
(AD)
24V DC (20.4V DC ~ 28.8V DC) (-15% ~ +20%)
4 /
±10V ±20mA
±2,000 ±1,000
12 bits (1
LSB
= 5mV) 11 bits (1
LSB
= 20µA)
200KΩ 250Ω
±0.5% 25°C, 77°F ±1% 0 ~ 55°C, 32 ~ 131°F
3ms ×
±15V ±32mA
16 11 bits
CR#2 ~ CR#5 K1 ~ K20
(DA)
2
0 ~ 10V 0 ~ 20mA
0 ~ 4,000 0 ~ 4,000
12 bits (1
LSB
= 2.5mV) 12 bits (1
LSB
= 5µA)
±0.5% (25°C, 77°F) ±1% (0 ~ 55°C, 32 ~ 131°F)
0.5Ω or
3ms ×
20mA (1KΩ ~ 2MΩ) -
- 0 ~ 500Ω
16 11 bits
(RS-485)
ASCII/RTU (4,800 ~ 115,200 bps) ASCII
7-bit 1 stop bit (7, E, 1) RTU 8-bit 1 stop bit (8, E, 1)
PLC RS-485
DVP-PLC 0 7 8 I/O
24V DC (20.4V DC ~ 28.8V DC) (-15% ~ +20%), 3.5W,
0°C ~ 55°C 50 ~ 95% 2
-25°C ~ 70°C 5 ~ 95%
IEC 61131-2, IEC 68-2-6 (TEST Fc )/IEC 61131-2 & IEC 68-2-27 (TEST Ea)
CR
CR
RS-485
b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0
#0 H’40C8
R
DVP06XA-H2 = H’6604
CH6 CH5 CH4 CH3 CH2 CH1
#1 H’40C9
R/W
(CH1 ~ CH4)
0 (-10V ~ +10V) H’0000
1 (-6V ~ +10V)
2 (-12mA ~ +20mA)
3 (-20mA ~ +20mA)
(CH5 ~ CH6)
0 (0V ~ 10V) 1 (2V ~ 10V)
2 (4mA ~ 20mA) 3 (0mA ~ 20mA)
CR#1 b0 ~ b11 (AD)
CH1 ~ CH4 CH1 0 (b2 ~ b0 = 000) CH2 1 (b5 ~ b3 = 001) CH3 2 (b8 ~ b6 = 010)
CH4 3 (b11 ~ b9 = 011) b0 ~ b11 H 688 b12 ~ b15 (DA)
CH5 ~ CH6 CH5 2 (b13 ~ b12 = 10) CH6
1 (b15 ~ b14 = 01) b12 ~ b15 H5 H’0000
#2 H’40CA
R/W
CH1
#3 H’40CB
R/W
CH2
#4 H’40CC
R/W
CH3
#5 H’40CD
R/W
CH4
CH1 ~ CH4 K1 ~ K20
K10
CR#2 ~ CR#5
#6 H’40CE
R CH1
#7 H’40CF
R CH2
#8 H’40D0
R CH3
#9 H’40D1
R CH4
CH1 ~ CH4
10 10 CH1 ~ CH4
#10 H’40D2
R/W
CH5
#11 H’40D3
R/W
CH6
CH5 ~ CH6 K0 ~ K4,000
K0 LSB
#12 H’40D4
R CH1
#13 H’40D5
R CH2
#14 H’40D6
R CH3
#15 H’40D7
R CH4
CH1 ~ CH4
#18 H’40DA
R/W
CH1 OFFSET
#19 H’40DB
R/W
CH2 OFFSET
#20 H’40DC
R/W
CH3 OFFSET
#21 H’40DD
R/W
CH4 OFFSET
CH1 ~ CH4 OFFSET K0 LSB
K-1,000 ~K1,000
K-1,000 ~K1,000
#22 H’40DE
R/W
CH5 OFFSET
#23 H’40DF
R/W
CH6 OFFSET
CH5 ~ CH6 OFFSET K-2,000 ~ K2,000
K0 LSB
#24 H’40E0
R/W
CH1 GAIN
#25 H’40E1
R/W
CH2 GAIN
#26 H’40E2
R/W
CH3 GAIN
#27 H’40E3
R/W
CH4 GAIN
CH1 ~ CH4 GAIN K1,000 LSB
K-800 ~ K4,000
K-800 ~ K2,600
CR
RS-485
b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0
GAIN - OFFSET = +200
LSB
~ +3,000
LSB
+200
LSB
~ +1,600
LSB
#28 H’40E4
R/W
CH5 GAIN
#29 H’40E5
R/W
CH6 GAIN
CH5 ~ CH6 GAIN K0 ~ K4,000
K2,000 LSB
GAIN - OFFSET = +400
LSB
~ +6,000
LSB
#30 H’40E6
R
CR#30
b15 ~ b8 b7 b6 b5 b4 b3 b2 b1 b0
K1 (H’1) 0 0 0 0 0 0 0 1
K2 (H’2) 0 0 0 0 0 0 1 0
K4 (H’4) 0 0 0 0 0 1 0 0
OFFSET/GAIN K8 (H’8) 0 0 0 0 1 0 0 0
K16 (H’10) 0 0 0 1 0 0 0 0
K32 (H’20) 0 0 1 0 0 0 0 0
K64 (H’40) 0 1 0 0 0 0 0 0
K128 (H’80)
1 0 0 0 0 0 0 0
b0 ~ b7 0 1
4000 (K2) 10V (K32)
(K2) A/D
#31 H’40E7
R/W
RS-485 01 ~ 254 K1
#32 H’40E8
R/W
4,800 ~ 115,200 bps b0 4,800 bps b1 9,600 bps
b2 19,200 bps b3 38,400 bps b4 57,600 bps b5 115,200
bps b6 ~ b13 b14 CRC RTU
b15 = 0 ASCII b15 = 1 RTU ASCII 7-bit
1 stop bit (7, E, 1) RTU 8-bit 1 stop bit (8,
E, 1) H’0002
b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0
CH6 CH5 CH4 CH3 CH2 CH1
#33 H’40E9
R/W
H’0000, CH1 ~ CH4 CH1
1. b0 0 CH1 CR#18, CR#24 b0
1 CH1 CR#18, CR#24
2. b1 b1 = 0
b1 = 1( )
3. b2 1 ,
CH5 ~ CH6 CH5 b13, b12
00 01
10 11 b13, b12 0
CR#33
#34 H’40EA
R 16 1.0A H’010A
#35 ~ #48
RS-485
R FROM , W TO RS-485
LSB (Least Significant Bit)
1
LSB
= 10V/2,000 = 5mV 1
LSB
= 20mA/1,000 = 20µA
1
LSB
= 10V/4,000 = 2.5mV 1
LSB
= 20mA/4,000 = 5µA
CR#0 ~ CR#34 H’40C8 ~ H’40EA RS-485 RS-485
1. 4,800/9,600/19,200/38,400/57,600/115,200 bps
2. Modbus ASCII /RTU ASCII 7bits 1 stop bit (7, E,
1) RTU 8 bits 1 stop bit (8, E, 1)
3. (Function) H’03 H’06 word H’10 word
4. CR RS-485 TO/DTO
CH1 ~ CH4 A/D
CR#1 0 GAIN = 5V (1,000
LSB
). OFFSET = 0V (0
LSB
).
CR#1 1 GAIN = 6V (1,200
LSB
). OFFSET = 2V (400
LSB
).
GAIN
K4,000
-800
LSB
~ +4,000
LSB
OFFSET
K0
-1,000
LSB
~ +1,000
LSB
+2, 000
+1, 000
-1,000
10V
-2,000
-6V
-10V
6V5V2V
0
1
0
GAIN
OFFSET
GAIN - OFFSET +200
LSB
~ +3,000
LSB
CR#1 2 GAIN = 20mA (1,000
LSB
). OFFSET = 4mA (200
LSB
).
CR#1 3 GAIN = 20mA (1,000
LSB
). OFFSET = 0mA (0
LSB
).
GAIN
K1,000
-800
LSB
~ +2,600
LSB
OFFSET
K0
-1,000
LSB
~ +1,000
LSB
+1,00 0
-1,000
-12mA
-20mA
4mA
0
2
3
OFFSET
20mA
GAIN
GAIN - OFFSET +200
LSB
~ +1,600
LSB
A/D
OFFSET (CR#18 ~ CR#21) GAIN (CR#24 ~ CR#27)
CH5 ~ CH6 D/A
CR#1 0 GAIN = 5V (2,000
LSB
). OFFSET = 0V (0
LSB
).
CR#1 1 GAIN = 6V (2,400
LSB
). OFFSET = 2V (800
LSB
).
GAIN
K2,000
0
LSB
~ +4,000
LSB
OFFSET
K0
-2,000
LSB
~ +2,000
LSB
0
1
0
+2,000
+4,000
2V
5V
6V
10V
OF FSE T
GA IN
GAIN - OFFSET +400
LSB
~ +6,000
LSB
CR#1 2 GAIN = 12mA (2,400
LSB
). OFFSET = 4mA (800
LSB
).
CR#1 3 GAIN = 10mA (2,000
LSB
). OFFSET = 0mA (0
LSB
).
GAIN
K2,000
0
LSB
~ +4,000
LSB
OFFSET
K0
-2,000
LSB
~ +2,000
LSB
3
2
0
+2,00 0
+4,00 0
20mA
OFFS ET
GA IN
12mA
4mA
GAIN - OFFSET +400
LSB
~ +6,000
LSB
D/A
OFFSET (CR#14 ~ CR#15) GAIN (CR#18 ~ CR#19)