Specialization card 1AD2F rel.03

Rear view - Card 1AD2F

Informations

Document: MIM1AD2F02
Description: Installation and maintenance manual
Editor: Riccardo Furlato
Approver Gabriele Bazzi
Link: http://www.qem.eu/doku/doku.php/en/strumenti/qmoveplus/mim1AD2F02
Language: English
Document release Hardware release Description Note Date
01 02 New manual 17/12/2014
02 02 Improved description of the analog input connector table and fixed the hardware release of the card 18/06/2015
03 02 Fixed the SW3 setting description and examplex 01/02/2016

1. Description

The 1AD2F card of Qmove+ series.

8 digital inputs
2 multistandard analog inputs 16bit
8 digital outputs

2. Connections

2.1.1 8 digital inputs

CN11 TerminalSimbolDescriptionAddress
9 0V Digital inputs common
8 I17 Input I17 3.INP01
7 I18 Input I18 3.INP02
6 I19 Input I19 3.INP03
5 I20 Input I20 3.INP04
4 I21 Input I21 3.INP05
3 I22 Input I22 3.INP06
2 I23 Input I23 3.INP07
1 I24 Input I24 3.INP08

2.2.1 2 multistandard analog inputs

Connector

CN13 Terminal Simbol Description Address
Potentiometric / 0-10V / 0-20mA Termocouple PT100
1 GAI Analog inputs common - -
2 VREF Reference volatege 1) - -
3 AI1_A Analog input 1 - A 2) 3.AI01
4 AI1_B - TC 1 - B
5 AI1_C - TC 1 + C
6 AI2_A Analog input 2 - A 3) 3.AI02
7 AI2_B - TC 2 - B
8 AI2_C - TC 2 + C

1) For potentiometric inputs
2), 3) A and B cables connected to the resistance, have the same color.
In the case of 2-wire PT100 you must make a jumper between A and B.

Analog inputs setting

Num.
Dip
Analog input 1 Analog input 2
PT100 Termocouple Pot. 0-10V 0-20mA PT100 Termocouple Pot. 0-10V 0-20mA
SW4
dip-8.jpg
1 ON X OFF OFF OFF X X X X X
2 OFF X ON ON ON X1) X X X X
3 X X X X X ON X OFF OFF OFF
4 X2) X X X X OFF X ON ON ON
5 ON ON OFF OFF OFF X X X X X
6 OFF OFF ON ON ON X X X X X
7 OFF ON X X X X X X X X
8 X X X X X OFF ON X X X
SW3
dip-4.jpg
1 X X X X X X X OFF OFF ON
2 X X X X X X X OFF ON OFF
3 X X OFF OFF ON X X X X X
4 X X OFF ON OFF X X X X X

X = setting not significant
Pot. = potentiometric type input


1) To set OFF if not use for analog input 1
2) To set OFF if not use for analog input 2

2.3.1 8 protected digital outputs

C12 TerminalSimbolDescriptionAddress
1 V+ Output power input (12÷28V dc)
2 O17 Digital output 17 3.OUT01
3 O18 Digital output 18 3.OUT02
4 O19 Digital output 19 3.OUT03
5 O20 Digital output 20 3.OUT04
6 O21 Digital output 21 3.OUT05
7 O22 Digital output 22 3.OUT06
8 O23 Digital output 23 3.OUT07
9 O24 Digital output 24 3.OUT08
10 V- Output power input (0V dc)

3. Connection examples

Digital inputs connection examples

Potentiometric analog input 1 and voltmetric analog input 2 connection examples

PT100 analog input 1 per and amperometric inputs 2 connection examples

PT100 analog input 1 and termocouple analog input 2 connection examples

Protected digital outputs connection examples

4. Electrical features

The following are the electrical hardware features.
The maximum and minimum frequency values and actual acquisition times, can still depend on any additional software filters, see the system variable “QMOVE:sys004”.

Type of polarisation PNP
Min. acquisition time (hardware) 3ms
Isolation 1000Vrms
Rated operating voltage 24Vdc
Voltage of logic state 0 0-2 V
Voltage of logic state 1 10.5 - 26.5 V
Internal voltage drop 5V
Input resistance (Ri) 2700Ω
Sink current2mA ÷ 8mA1)

1) CAUTION: If the device connected to the inputs needs a higher minimum current, inputs may not work properly.

Internal diagram of standard digital input.

4.2.1 Conversion times

The electrical features depend on the type of input, configurable via DIP switch.

The conversion times from analog to digital depend on the configuration according to the table:

Analog Input Configuration Conversion time
per channel
Input 1 Input 2
DC1) - 4.6 ms
- DC2) 4.6 ms
DC3) DC4) 9.3 ms
DC5) TC 9.3 ms
DC6) PT100 79.1 ms
TC - 9.3 ms
- TC 9.3 ms
TC DC7) 9.3 ms
TC TC 9.3 ms
TC PT100 83.8 ms
PT100 - 74.5 ms
- PT100 74.5 ms
PT100 DC8) 79.1 ms
PT100 TC 79.1 ms
PT100 PT100 79.1 ms

1), 2), 3), 4), 5), 6), 7), 8) Amperometric, voltmetric or potentiometric type

4.2.2 Amperometric analog inputs in 0-20mA configuration

Connection type Amperometric
(0-20 mA)
Resolution 12bit/16bit1)
Input resistance 125Ω
Value of damage 25 mA
Max. Linearity error + 0,1% Vfs
Max. Offset error + 0,1% Vfs
S.n. 71 dB
Conversion time It depends on the configuration of the analog input.
See section Conversion times if present 2)
Isolation 1000 Vrms

1) It depends on the Hardware versions
2) The sampling time of the device must be equal or higher than the conversion time

Amperometric analog input internal scheme

4.2.3 Potentiometric analog input configuration

Connection type Potentiometric 1KΩ÷20KΩ
Resolution 12bit/16bit1)
Reference voltage output 2,5Vdc
Max output current from reference 10mA
Input resistance 10MΩ
Max. Linearity error + 0,1% Vfs
Max. Offset error + 0,1% Vfs
S.n. 71 dB
Conversion time It depends on the configuration of the analog input.
See section Conversion times if present 2)
Isolation 1000 Vrms

1) It depend on the Hardware versions
2) The sampling time of the device must be equal or higher than the conversion time

Potentiometric analog input internal scheme

4.2.4 Voltmetric analog input configuration

Connection type Voltmetrico
0÷10V
Resolution 12bit/16bit1)
Input resistance (Rin) 40KΩ
Value of damage 20V
Max. Linearity error + 0,1% Vfs
Max. Offset error + 0,1% Vfs
S.n. 71 dB
Conversion time It depends on the configuration of the analog input.
See section Conversion times if present 2)
Isolation 1000 Vrms

1) It depends on the Hardware versions
2) The sampling time of the device must be equal or higher than the conversion time

Voltmetric analog input internal scheme

4.2.5 PT100 analog input configuration

Sensor type
collegabile
PT100 3 wire 1)
Measure type Resistance 2)
Resolution 15 bit (32767 corresponds to 250.00 O)
Input resistance (Rin) 15 MO
Measuring current 1 mA
Value of damage 10V
Accuracy of resistance measurement ± 0,04%
Conversion time It depends on the configuration of the analog input.
See section Conversion times if present 3)
Isolation 1000 Vrms

1) Also connected to 2-wire terminals with jumper
2) Temperature calculated by software
3) The sampling time of the device must be equal or higher than the conversion time

4.2.6 Termocouple analog input configuration

Sensor type Thermocouple type J,K,R,S,B,N,T,E 1)
Type of measure Differential voltage
Resolution 16 bit
Measuring range ±156.25 mV
Measure for cold junction compensation Integrated
Input resistance (Rin) 15 MO
Value of damage 30V
Measurement accuracy ± 0,2% (excluding cold junction compensation)
Conversion time It depends on the configuration of the analog input.
See section Conversion times if present 2)
Isolation 1000 Vrms

1) J and K only supported by SW. Contact QEM for the support of the other sensor types.
2) The sampling time of the device must be equal or higher than the conversion time

4.2.7 Protected digital outputs

Switchable load Dc (PNP)
Max. operating voltage 28V
Insulation 1000VRMS
Max. internal voltage drop 600mV
Max internal resistance @ON 90mO
Max. protection current 12A
Max. operating current 500mA
Max. current @OFF 5µA
Max switching time from ON to OFF 270µs
Max switching time from OFF to ON 250µs

Internal diagram of protected outputs

  • Last modified: 2019/08/29 17:01