Seneca Z-10-D-IN User manual
Page 1
MI003419
MI00253-9-EN
SENECA s.r.l.
Via Austria 26, PADOVA – ITALY
Tel. +39.049.8705355 – 8705359 Fax. +39.049.8706287
Web site: www.seneca.it
(Other)
This document is property of SENECA srl. Duplication and reprodution are forbidden, if not authorized. Contents of the present
documentation refers to products and technologies described in it. All technical data contained in the document may be modified
without prior notice Content of this documentation is subject to periodical revision.
To use the product safely and effectively, read carefully the following instructions before use. The product must be used only for the use
for which it was designed and built. Any other use must be considered with full responsibility of the user. The installation,
programmation and set-up is allowed only for authorized operators; these ones must be people physically and intellectually suitable.
Set up must be performed only after a correct installation and the user must perform every operation described in the installation
manual carefully. Seneca is not considered liable of failure, breakdown, accident caused for ignorance or failure to apply the indicated
requirements. Seneca is not considered liable of any unauthorized changes. Seneca reserves the right to modify the device, for any
commercial or construction requirements, without the obligation to promptly update the reference manuals.
No liability for the contents of this documents can be accepted. Use the concepts, examples and other content at your own risk. There
may be errors and inaccuracies in this document, that may of course be damaging to your system. Proceed with caution, and although
this is highly unlikely, the author(s) do not take any responsibility for that. Technical features subject to change without notice.
USER MANUAL
Z-10-D-IN
HW2
USER MANUAL – Z-10-D-IN HW2
2
Date
Revision
Notes
22/02/2016
1
Rewriting
28/02/2018
2
Changed Upper Title
23/03/2018
3
Added measure unit for Measure 1 and 2
registers
06/06/2018
400
New hardware revision 2
New firmware with all 32 bits counters and
new features
12/06/2018
401
Fix Table of contents
22/06/2018
402
Fix Register 40020 Bit[0]
19/11/2018
403
Fix Filter Register 40019
14/12/2018
404
Added new chapter Easy Setup Full
configuration
28/02/2019
405
Added info from fw rev 4007
Added Chapter “Counters filter”
03/09/2019
406
Fix USB connection on Chapter 7
USER MANUAL – Z-10-D-IN HW2
3
Table of contents
SENECA Z-10-D-IN “HW2” ................................................................................................4
1. INTRODUCTION...........................................................................................................5
1.1. FEATURES................................................................................................................5
2. FEATURES...................................................................................................................6
3. INPUT CONNECTIONS ................................................................................................8
4. DIP-SWITCHES TABLE ...............................................................................................9
5. COUNTERS FILTER...................................................................................................10
6. MODBUS RTU REGISTER TABLES .........................................................................11
6.1. BIT POSITION CONVENTION IN THE HOLDING REGISTERS: ...........................12
6.2. MODBUS HOLDING REGISTERS ADDRESSES (FUNCTION CODE 3): .............13
6.3. MODBUS COIL REGISTERS ADDRESSES (FUNCTION CODE 1): .....................22
6.4. MODBUS INPUT REGISTERS (READ ONLY) ADDRESSES (FUNCTION CODE
2): 23
7. FULL CONFIGURATION WITH EASY SETUP ..........................................................24
Easy Setup Menu .......................................................................................................................................................24
7.1. CREATING A PROJECT CONFIGURATION..........................................................25
7.2. TESTING THE DEVICE...........................................................................................27
7.2.1. THE DATALOGGER ............................................................................................28
USER MANUAL – Z-10-D-IN HW2
4
Seneca Z-10-D-IN “HW2”
CAUTION!
UNDER ANY CIRCUMSTANCES, SENECA S.R.L. OR ITS SUPPLIERS SHALL NOT BE RESPONSIBLE FOR
LOSS OF RECORDING DATA/INCOMES OR FOR CONSEQUENTIAL OR INCIDENTAL DAMAGE DUE
TO NEGLECT OR RECKLESS MISHANDLING OF Z-10-D-IN, EVEN THOUGH SENECA IS WELL AWARE
OF THESE POSSIBLE DAMAGES.
SENECA, ITS SUBSIDIARIES, AFFILIATES, COMPANIES OF THE GROUP, ITS SUPPLIERS AND
RETAILERS SHALL NOT GUARANTEE THAT THE FUNCTIONS WILL SATISFY COMPLETELY
CUSTOMER’S EXPECTATIONS OR THAT Z-10-D-IN, THE FIRMWARE AND THE SOFTWARE SHALL
HAVE NO ERRORS OR WORK CONTINUOUSLY.
THIS MANUAL REFERS ONLY TO “HW2” Z-10-D-IN HARDWARE REVISION
FOR EARLY REVISION REFERS TO MI002533 MANUAL
USER MANUAL – Z-10-D-IN HW2
5
1. Introduction
The Z-10-D-IN module acquires 10 single-ended digital signals, then converts them to a digital format (IN 1-
10 state).
The supported communication protocol is Modbus RTU.
The following counters are available:
All 10 counters are in 32 bits format (backupped on a Not volatile RAM)
For all 10 inputs TON/TOFF/Frequency measures are available.
1.1. Features
•Acquisition of digital signals from sensor: Reed, NPN, PNP, Proximity, contact, etc...
•Counters are saved to a non volatile memory (NVM FeRAM)
•Input signals can be filtered
•32 bits Pulse counters for digital signals, with max frequency < 2500 Hz
•Measure of Frequency / Period / Ton and Toff
•Advanced pulse management for digital signals
•Up to 10 sensors power by internal supply voltage (Vaux=16V)
•Node address and baud-rate configurable from Dip-Switches
•RS485 serial communication with MODBUS-RTU protocol
USER MANUAL – Z-10-D-IN HW2
6
2. Features
INPUT
Number
10
Input filter
Cut-off frequency configurable
Filter
Configurable
Protection
This module provides inputs and power supply (Vaux) protection
against the overvoltage surge transient by transient suppressor
TVS (600W/ms); max current supplied from Vaux is 100mA
(limited by internal series PTC)
Sensor=closed
The sensor is detected «closed» if: acquired signal voltage >12
Vdc and acquired signal current > 3 mA
Sensor=open
The sensor is detected «open» if: acquired signal voltage <10 Vdc
and acquired signal current < 2 mA
Internal supply Vaux
The screw terminal 12 (Vaux) supplies 16 V with reference to the
screw terminal 1 (GND)
Measure error for frequency: 2% of measure +-1 Hz
Measure error for period, ton, toff:+- 1ms
CONNECTIONS
RS485 interface
IDC10 connector for DIN 46277 rail (back-side panel)
ISOLATIONS
1500 Vac
Between: power supply, ModBUS RS485, digital inputs
USER MANUAL – Z-10-D-IN HW2
7
POWER SUPPLY
Supply voltage
10 – 40 Vdc or 19 – 28 Vac ( 50Hz - 60Hz)
Power
consumption
Typ: 1.5W; Max: 2.5W
The power supply transformer necessary to supply the module must comply with EN60742 (Isolated
transformers and safety transformers requirements). To protect the power supply, is recommended to
install a fuse.
USER MANUAL – Z-10-D-IN HW2
8
3. Input connections
Power on the module with < 40 Vdc or < 28 Vac voltage supply. These upper limits must not be exceeded to
avoid serious damage to the module.
USER MANUAL – Z-10-D-IN HW2
9
4. Dip-switches table
Dip switch configuration is valid only at boot up.
BAUD-RATE (Dip-Switches: DIP-SWITCH STATUS)
1
2
Meaning
OFF
OFF
Baud-rate=9600 Baud
OFF
ON
Baud-rate=19200 Baud
ON
OFF
Baud-rate=38400 Baud
ON
ON
Baud-rate=57600 Baud
ADDRESS (Dip-Switches: DIP-SWITCH STATUS)
3
4
5
6
7
8
Meaning
OFF
OFF
OFF
OFF
OFF
OFF
Address and Baud-Rate are acquired from memory
(EEPROM)
OFF
OFF
OFF
OFF
OFF
ON
Address=1
OFF
OFF
OFF
OFF
ON
ON
Address=2
OFF
OFF
OFF
OFF
ON
ON
Address=3
OFF
OFF
OFF
ON
OFF
OFF
Address=4
-
-
-
-
-
-
……………………
ON
ON
ON
ON
ON
ON
Address=63
RS485 TERMINATOR (Dip-Switches: DIP-SWITCH STATUS)
9
10
Meaning
OFF
OFF
RS485 terminator disabled
OFF
ON
RS485 terminator enabled
USER MANUAL – Z-10-D-IN HW2
10
5. Counters Filter
The filter is applied to:
-Counters
-Frequency
-TON
-TOFF
-PERIOD
The Input values (register 40002) are not filtered.
The filter will cut frequency up to:
f[Hz] = 1000/T Filter[ms]
A pulse is filtered if its duration is > Tfilter/2.
In the following example the first 3 pulse are filtered because their duration is lower than Tfilter/2.
The upgrading of the counter values is made after a rising edge and after Tfilter/2.
USER MANUAL – Z-10-D-IN HW2
11
6. Modbus RTU Register Tables
In the following table this abbreviations are used:
MS = Most significant
LS = Less significant
MSW = Most significant Word (16 bits)
LSW = Less significant Word (16 bits)
R = Read only register
RW = Read and writeable register
RW* = registers in non-volatile memory writable infinite times
RW** = registers in non-volatile memory writable a maximum of 100000 times
Unsigned 16 bits = Unsigned 16 bits register (from 0 to 65535)
Signed 16 bits = 16 bits register with sign (from -32768 to +32767)
Float 32 bits = Floating point single precision 32 bits (IEEE 754) register
0x = Hexadecimal Value
Default communication parameters are 38400 baud, 8 bit data, parity None, 1 stop bit.
USER MANUAL – Z-10-D-IN HW2
12
6.1. Bit Position Convention in the Holding Registers:
One Holding Register is composed by 16 bits with the following convention:
BIT
15
BIT
14
BIT
13
BIT
12
BIT
11
BIT
10
BIT
9
BIT
8
BIT
7
BIT
6
BIT
5
BIT
4
BIT
3
BIT
2
BIT
1
BIT
0
For example, if the register decimal value is
12300
the binary value is:
0011 0000 0000 1100
So, using the Bit convention we obtain:
BIT
15
BIT
14
BIT
13
BIT
12
BIT
11
BIT
10
BIT
9
BIT
8
BIT
7
BIT
6
BIT
5
BIT
4
BIT
3
BIT
2
BIT
1
BIT
0
0
0
1
1
0
0
0
0
0
0
0
0
1
1
0
0
USER MANUAL – Z-10-D-IN HW2
13
6.2. Modbus Holding Registers Addresses (function code 3):
All registers are “Holding register” (Read Modbus function 3) with the convention that the first register
(offset 0) is the 40001 address.
The following Modbus functions are supported:
Read Modbus Register (function 3)
Write Single Modbus Register (function 6)
Write Multiple Modbus Registers (function 16)
All values in 32bits are stored into 2 consecutive registers
For more info refers to:
http://www.modbus.org/specs.php
USER MANUAL – Z-10-D-IN HW2
14
Register
Name
Comment
Register
Type
R/W
Default value
or Start Value
Modbus
Address
Modbus
Offset
Address
MachineID
Module ID code
Unsigned
16 bits
R
-
40001
0
Inputs
Digital inputs 1..10 status
value (not filtered)
Bit 0 (LSB) = IN1 status
Bit 1 = IN2 status
Bit 2 = IN3 status
Bit 3 = IN4 status
Bit 4 = IN5 status
Bit 5 = IN6 status
Bit 6 = IN7 status
Bit 7 = IN8 status
Bit 8 = IN9 status
Bit 9 = IN10 status
Bit 10..14 = not used
Bit 15 (MSB) = not used
For example if the register
value is:
813 decimal =
(MSB)0000 0011 0010 1101(LSB)
binary
IN1 = 1
IN2 = 0
IN3 = 1
IN4 = 1
IN5 = 0
IN6 = 1
IN7 = 0
IN8 = 0
IN9 = 1
IN10 =1
Unsigned
16 bits
R
0
40002
1
First 16 bit
Counter 1
16 bit counter (from 0 to
65535)
The value is stored into a non
volatile RAM (FeRAM).
The Counter 1 value can be
written (for example writing 0
for setting the counter)
Unsigned
16 bits
R/W**
-
40003
2
First 16 bit
Counter 2
16 bit counter (from 0 to
65535)
The value is stored into a non
volatile RAM (FeRAM).
The Counter 2 value can be
written (for example writing 0
for setting the counter)
Unsigned
16 bits
R/W**
-
40004
3
USER MANUAL – Z-10-D-IN HW2
15
First 16 bit
Counter 3
16 bit counter (from 0 to
65535)
The value is stored into a non
volatile RAM (FeRAM).
The Counter 3 value can be
written (for example writing 0
for setting the counter)
Unsigned
16 bits
R/W**
-
40005
4
First 16 bit
Counter 4
16 bit counter (from 0 to
65535)
The value is stored into a non
volatile RAM (FeRAM).
The Counter 4 value can be
written (for example writing 0
for setting the counter)
Unsigned
16 bits
R/W**
-
40006
5
First 16 bit
Counter 5
16 bit counter (from 0 to
65535)
The value is stored into a non
volatile RAM (FeRAM).
The Counter 5 value can be
written (for example writing 0
for setting the counter)
Unsigned
16 bits
R/W**
-
40007
6
First 16 bit
Counter 6
16 bit counter (from 0 to
65535)
The value is stored into a non
volatile RAM (FeRAM).
The Counter 6 value can be
written (for example writing 0
for setting the counter)
Unsigned
16 bits
R/W**
-
40008
7
First 16 bit
Counter 7
16 bit counter (from 0 to
65535)
The value is stored into a non
volatile RAM (FeRAM).
The Counter 7 value can be
written (for example writing 0
for setting the counter)
Unsigned
16 bits
R/W**
-
40009
8
First 16 bit
Counter 8
16 bit counter (from 0 to
65535)
The value is stored into a non
volatile RAM (FeRAM).
The Counter 8 value can be
written (for example writing 0
for setting the counter)
Unsigned
16 bits
R/W**
-
40010
9
Full 32 bit
Counter 9
32 bit counter (from 0 to
4294967295)
The value is stored into a non
volatile RAM (FeRAM).
The Counter 9 value can be
written (for example writing 0
for setting the counter)
Unsigned
32 bits
R/W**
-
40011
(MSW)
40012
(LSW)
10-11
Full 32 bit
Counter 10
16 bit counter (from 0 to
4294967295)
The value is stored into a non
volatile RAM (FeRAM).
The Counter 10 value can be
written (for example writing 0
for setting the counter)
Unsigned
32 bits
R/W**
-
40013
(MSW)
40014
(LSW)
12-13
USER MANUAL – Z-10-D-IN HW2
16
16 bits only
Counters
Overflow Flags
The flag is “1” if the first 16
bits of the
counter has
performed an overflow
Bit 0 (LSB)= Overflow
Counter 1
Bit 1 = Overflow Counter 2
Bit 2 = Overflow Counter 3
Bit 3 = Overflow Counter 4
Bit 4 = Overflow Counter 5
Bit 5 = Overflow Counter 6
Bit 6 = Overflow Counter 7
Bit 7 = Overflow Counter 8
Bit 8 = Overflow Counter 9
Bit 9 = Overflow Counter 10
Bit 10..14 = not used
Bit 15 (MSB) = not used
Unsigned
16 bits
R/W
0
40015
14
Measure B
Input B measure value
Measure units:
Ton/Toff/Period [ms]
Frequency [Hz]
Unsigned
16 bits
R
0
40016
15
Measure A
Input A measure value
Measure units:
Ton/Toff/Period [ms]
Frequency [Hz]
Unsigned
16 bits
R
0
40017
16
Measure A/B
Type
Bit [15..12] = 0b0000
Measure A frequency
Bit[15..12] = 0b0001
Measure A period
Bit[15..12] = 0b0010
Measure A Ton
Bit[15..12] = 0b0011
Measure A Toff
Bit[11..8] = 0b0001
Measure A from input 1
Bit[11..8] = 0b0010
Measure A from input 2
Bit[11..8] = 0b0011
Measure A from input 3
Bit[11..8] = 0b0100
Measure A from input 4
Bit[11..8] = 0b0101
Measure A from input 5
Bit[11..8] = 0b0110
Measure A from input 6
Bit[11..8] = 0b0111
Measure A from input 7
Bit[11..8] = 0b1000
Measure A from input 8
Bit[11..8] = 0b1001
Unsigned
16 bits
R/W*
0
40018
17
USER MANUAL – Z-10-D-IN HW2
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Measure A from input 9
(only frequency)
Bit[11..8] = 0b1010
Measure A from input 10
(only frequency)
Bit [7..4] = 0b0000 Measure
B frequency
Bit[7..4] = 0b0001 Measure
B period
Bit[7..4] = 0b0010 Measure
B Ton
Bit[7..4] = 0b0011 Measure
B Toff
Bit[3..0] = 0b0001 Measure
B from input 1
Bit[3..0] = 0b0010 Measure
B from input 2
Bit[3..0] = 0b0011 Measure
B from input 3
Bit[3..0] = 0b0100 Measure
B from input 4
Bit[3..0] = 0b0101 Measure
B from input 5
Bit[3..0] = 0b0110 Measure
B from input 6
Bit[3..0] = 0b0111 Measure
B from input 7
Bit[3..0] = 0b1000 Measure
B from input 8
Bit[3..0] = 0b1001 Measure
B from input 9 (only
frequency)
Bit[3..0] = 0b1010 Measure
B from input 10 (only
frequency)
FILTER
Filter value from 1 ms to
65535
ms (valid for all 10
inputs)
For example with filter = 1
ms cutoff frequency =
1/1ms = 1000 Hz
With filter = 20 ms cutoff
frequency = 1/20ms=50 Hz
Use value 0 for disable the
filter.
For more info see chapter 5
Unsigned
16 bits
R/W*
3 ms (enabled for
all 10 inputs)
40019
18
IN9..IN10
COUNT MODE /
RS485 PARITY
Bit [12:8] = 0b00000 IN9
Upcounter IN10 Upcounter
Bit [12:8]
= 0b00001 IN9
Downcounter IN10
Upcounter
Unsigned
16 bits
R/W*
0
40020
19
USER MANUAL – Z-10-D-IN HW2
18
Bit [12:8] = 0b00010 IN9
Upcounter IN10
Downcounter
Bit [12:8]
= 0b00100 IN9
Downcounter IN10
Downcounter
Bit [12:8]
= 0b01000
Count+1 from IN9 and
Count-
1 from IN10. Only
Count 9 Is active
Bit [12:8]
= 0b10000 if
IN10=1 Count9 Upcounter,
if IN10=0 Counter9
Downcounter
Bit[4] = 0 Port RS485 Parity
Even
Bit[4] = 1 Port RS485 Parity
Odd
Bit[3] = 0 Port RS485 Parity
Not Active
Bit[3] = 1 Port RS485 Parity
Active
Bit[2] = 0 Delay Between
Rs485 Port TX
and RX
disabled
Bit[2] = 1 Delay Between
Rs485 Port TX and RX
enabled
Bit[1] = 0 IN1..IN8
Upcounter
Bit[1]
= 1 IN1..IN8
Downcounter
Bit[0] = 0 IN1..IN10 Normal
Logic
Bit[0] = 1 IN1..IN10 Reverse
Logic
ADDRESS
BAUDRATE
Bit[15..8] = 0b00000000
RS485 use 4800baud
Bit[15..8] = 0b00000001
RS485 use 9600baud
Bit[15..8] = 0b00000010
RS485 use 19200baud
Bit[15..8] = 0b00000011
RS485 use 38400baud
Bit[15..8] = 0b00000100
RS485 use 57600baud
Bit[15..8] = 0b00000101
RS485 use 115200baud
Bit[15..8] = 0b00000110
Not Used
Bit[15..8] = 0b00000111
Unsigned
16 bits
R/W*
0b000001000000
0001
(38400 baud,
station address 1)
40021
20
USER MANUAL – Z-10-D-IN HW2
19
RS485 use 2400baud
Bit[7:0] = Station Node
Address (if all dip switched
are set to OFF)
COMMAND
If set to
1: Copy the actual contents
of registers R/W* into
EEPROM.
2: Perform a Reset
Unsigned
16 bits
R/W
0
40022
21
FW BUILD
Fw build revision
Unsigned
16 bits
R
-
40023
22
FW REVISION
Fw internal code
Unsigned
16 bits
R
-
40024
23
32 bit Counter
1
Full 32 bit Counter 1 Value
Unsigned
32 bits
RW**
0
40101
(MSW)
40102
(LSW)
100-101
32 bit Counter
2
Full 32 bit Counter 2 Value
Unsigned
32 bits
RW**
0
40103
(MSW)
40104
(LSW)
102-103
32 bit Counter
3
Full 32 bit Counter 3 Value
Unsigned
32 bits
RW**
0
40105
(MSW)
40106
(LSW)
104-105
32 bit Counter
4
Full 32 bit Counter 4 Value
Unsigned
32 bits
RW**
0
40107
(MSW)
40108
(LSW)
106-107
32 bit Counter
5
Full 32 bit Counter 5 Value
Unsigned
32 bits
RW**
0
40109
(MSW)
40110
(LSW)
108-109
32 bit Counter
6
Full 32 bit Counter 6 Value
Unsigned
32 bits
RW**
0
40111
(MSW)
40112
(LSW)
110-111
32 bit Counter
7
Full 32 bit Counter 7 Value
Unsigned
32 bits
RW**
0
40113
(MSW)
40114
(LSW)
112-113
32 bit Counter
8
Full 32 bit Counter 8 Value
Unsigned
32 bits
RW**
0
40115
(MSW)
40116
(LSW)
114-115
32 bit Counter
9
Full 32 bit Counter 9 Value
Unsigned
32 bits
RW**
0
40117
(MSW)
40118
(LSW)
116-117
32 bit Counter
10
Full 32 bit Counter 10 Value
Unsigned
32 bits
RW**
0
40119
(MSW)
40120
(LSW)
118-119
Period Input 1
Input 1 Period [ms]
Period = Ton + Toff
Unsigned
16 bits
R
0
40121
120
Period Input 2
Input 2 Period [ms]
Unsigned
R
0
40122
121
USER MANUAL – Z-10-D-IN HW2
20
Period = Ton + Toff
16 bits
Period Input 3
Input 3 Period [ms]
Period = Ton + Toff
Unsigned
16 bits
R
0
40123
122
Period Input 4
Input 4 Period [ms]
Period = Ton + Toff
Unsigned
16 bits
R
0
40124
123
Period Input 5
Input 5 Period [ms]
Period = Ton + Toff
Unsigned
16 bits
R
0
40125
124
Period Input 6
Input 6 Period [ms]
Period = Ton + Toff
Unsigned
16 bits
R
0
40126
125
Period Input 7
Input 7 Period [ms]
Period = Ton + Toff
Unsigned
16 bits
R
0
40127
126
Period Input 8
Input 8 Period [ms]
Period = Ton + Toff
Unsigned
16 bits
R
0
40128
127
Period Input 9
Input 9 Period [ms]
Period = Ton + Toff
Unsigned
16 bits
R
0
40129
128
Period Input 10
Input 10 Period [ms]
Period = Ton + Toff
Unsigned
16 bits
R
0
40130
129
Frequency
Input 1
Input 1 Frequency [Hz]
Unsigned
16 bits
R
0
40131
130
Frequency
Input 2
Input 2 Frequency [Hz]
Unsigned
16 bits
R
0
40132
131
Frequency
Input 3
Input 3 Frequency [Hz]
Unsigned
16 bits
R
0
40133
132
Frequency
Input 4
Input 4 Frequency [Hz]
Unsigned
16 bits
R
0
40134
133
Frequency
Input 5
Input 5 Frequency [Hz]
Unsigned
16 bits
R
0
40135
134
Frequency
Input 6
Input 6 Frequency [Hz]
Unsigned
16 bits
R
0
40136
135
Frequency
Input 7
Input 7 Frequency [Hz]
Unsigned
16 bits
R
0
40137
136
Frequency
Input 8
Input 8 Frequency [Hz]
Unsigned
16 bits
R
0
40138
137
Frequency
Input 9
Input 9 Frequency [Hz]
Unsigned
16 bits
R
0
40139
138
Frequency
Input 10
Input 10 Frequency [Hz]
Unsigned
16 bits
R
0
40140
139
T ON Input 1
Input 1 High Time [ms]
Unsigned
16 bits
R
0
40141
140
T ON Input 2
Input 2 High Time [ms]
Unsigned
16 bits
R
0
40142
141
T ON Input 3
Input 3 High Time [ms]
Unsigned
16 bits
R
0
40143
142
T ON Input 4
Input 4 High Time [ms]
Unsigned
16 bits
R
0
40144
143
T ON Input 5
Input 5 High Time [ms]
Unsigned
16 bits
R
0
40145
144
T ON Input 6
Input 6 High Time [ms]
Unsigned
16 bits
R
0
40146
145
T ON Input 7
Input 7 High Time [ms]
Unsigned
16 bits
R
0
40147
146
T ON Input 8
Input 8 High Time [ms]
Unsigned
16 bits
R
0
40148
147
T ON Input 9
Input 9 High Time [ms]
Unsigned
16 bits
R
0
40149
148
T ON Input 10
Input 10 High Time [ms]
Unsigned
16 bits
R
0
40150
149
T OFF Input 1
Input 1 Low Time [ms]
Unsigned
16 bits
R
0
40151
150
T OFF Input 2
Input 2 Low Time [ms]
Unsigned
R
0
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