ESIS ADAM-5000 Series User manual
ADAM-5000 Series
I/O Module
User's Manual
2.4 rd Edition
May 2008
I/O Module Introduction
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ADAM-5000 Series I/O Module User’s Manual
Introduction
This manual introduces the detail specifications functions and
application wiring of each ADAM-5000 I/O modules. To organize
an ADAM-5510 Series Controller, you need to select I/O modules
to interface the main unit with field devices or processes that you
have previously determined. Advantech provides 23 types of
ADAM-5000 I/O modules for various applications so far. Following
table is the I/O modules support list we provided for user’s choice.
Module Name Specification Reference
Analog I/O
ADAM-5013 3-ch. RTD input Isolated
ADAM-5017 8-ch. AI Isolated
ADAM-5017P 8-ch. AI with independent Input Isolated
ADAM-5017H 8-ch. High-speed AI Isolated
ADAM-5017UH 8-ch. Ultra High-speed AI Isolated
ADAM-5018 7-ch. Thermocouple input Isolated
ADAM-5018P 7-ch. Thermocouple input with
independent Input Isolated
ADAM-5024 4-ch. AO Isolated
Digital I/O
ADAM-5050 7-ch. D I/O Non-isolated
ADAM-5051 16-ch. DI Non-isolated
ADAM-5051D 16-ch. DI w/LED Non-isolated
ADAM-5051S 16-ch. Isolated DI w/LED Isolated
ADAM-5052 8-ch. DI Isolated
ADAM-5053S 32-ch. Isolated DI Isolated
ADAM-5055S 16-ch. Isolated DI/O w/LED Isolated
ADAM-5056 16-ch. DO Non-isolated
ADAM-5056D 16-ch. DO w/LED Non-isolated
ADAM-5056S 16-ch. Isolated DO w/LED Isolated
ADAM-5056SO 16-ch. Iso. DO w/LED (source) Isolated
ADAM-5057S 32-ch. Isolated DO Isolated
Table 1: I/O Module Support List
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Module Name Specification Reference
Relay Output
ADAM-5060 6-ch. Relay output Isolated
ADAM-5068 8-ch. Relay output Isolated
ADAM-5069 8-ch. Relay output Isolated
Counter/Frequency
ADAM-5080 4-ch. Counter/Frequency Isolated
ADAM-5081 4-ch/8-ch High Speed
Counter/Frequency Isolated
Serial I/O
ADAM-5090 4-port RS232 Non-isolated
ADAM-5091 4-port RS232 with Share
Interrupt Non-isolated
ADAM-5095 2-port CAN with Isolation
protection Isolated
Storage ADAM-5030 2-slot SD Storage Module
Motion ADAM-5202 2-port AMONet Master Module
Table 2: I/O Module Support List
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ADAM-5000 Series I/O Module User’s Manual
1. Analog Input Modules
Analog input modules use an A/D converter to convert sensor
voltage, current, thermocouple or RTD signals into digital data. The
digital data is then translated into engineering units. The analog
input modules protect your equipment from ground loops and
power surges by providing opto-isolation of the A/D input and
transformer based isolation up to
3,000 V
DC
.
ADAM-5013 3-channel RTD input module
The ADAM-5013 is a 16-bit, 3-channel RTD input module that
features programmable input ranges on all channels. This module is
an extremely cost-effective solution for industrial measurement and
monitoring applications. Its opto-isolated inputs provide 3,000 V
DC
of isolation between the analog input and the module, protecting
the module and peripherals from damage due to high input line
voltage.
Note: Owing to the conversion time required by the A/D
converter, the initialization time of each ADAM-5013 module
is 5 seconds. Thus the total initialization time will be about 20
seconds if all 4 I/O slots in an ADAM-5000 main unit
contain ADAM-5013 modules.
ADAM-5013
Figure 1: ADAM-5013 module frontal view
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Application wiring
Figure 2: RTD inputs
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ADAM-5000 Series I/O Module User’s Manual
Technical specifications of ADAM-5013
Analog input channels three
Input type Pt or Ni RTD
RTD type and temperature range
Pt -100 to 100°C a=0.00385
Pt 0 to 100°C a=0.00385
Pt 0 to 200°C a=0.00385
Pt 0 to 600°C a=0.00385
Pt -100 to 100°C a=0.00392
Pt 0 to 100°C a=0.00392
Pt 0 to 200°C a=0.00392
Pt 0 to 600°C a=0.00392
Ni -80 to 100°C
Ni 0 to 100°C
Isolation voltage 3000 VDC
Sampling rate 10 samples/sec (total)
Input impedance 2 MΩ
Bandwidth 13.1 Hz @ 50 Hz
15.72 Hz @ 60 Hz
Input connections 2, 3 or 4 wire
Accuracy ± 0.1% or better
Zero drift ± 0.015 °C/°C
Span drift ± 0.01 °C/°C
CMR@50/60 Hz 150 dB
NMR@50/60 Hz 100 dB
Power consumption 1.2 W
Table 2: Technical specifications of ADAM-5013
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ADAM-5013 RTD Input Resistance Calibration
1. Apply power to the module and let it warm up for about 30 minutes.
2. Make sure that the module is correctly installed and is properly
con- figured for the input range you want to calibrate. You can
use the ADAM utility software to help in this.
3. Connect the correct reference self resistance between the screw
terminals of the ADAM-5013 as shown in the following wiring
diagram. Table 2 below shows the correct values of the span and
zero calibration resistances to be connected. Reference
resistances used can be from a precision resistance decade box or
from discrete resistors with the values 60, 140, 200 and 440 ohms.
Figure 3: Applying calibration resistance
4. First, with the correct zero (offset) calibration resistance connected
as shown above, issue a Zero Calibration command to the module
using the Calibrate option in the ADAM utility software.
5. Second, with the correct span resistance connected as shown
above, issue a Span Calibration command to the module using
the Calibrate option in the ADAM utility software. Note that the
module zero calibration must be completed prior to the span
calibration.
Note: If the above procedure is ineffective, the user must first issue an
RTD Self Calibration command $aaSi2 to the module and then
complete steps 4 and 5 after self calibration is complete.
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ADAM-5000 Series I/O Module User’s Manual
Calibration resistances (ADAM-5013)
Input Range
Code (Hex)
Input Range Span
Calibration
Resistance
Zero
Calibration
Resistance
20 Pt, -100 to 100°C A = 0.00385 140 Ohms 60 Ohms
21 Pt, 0 to 100°C A = 0.00385 140 Ohms 60 Ohms
22 Pt, 0 to 200°C A = 0.00385 200 Ohms 60 Ohms
23 Pt, 0 to 600°C A = 0.00385 440 Ohms 60 Ohms
24 Pt, -100 to 100°C A = 0.00392 140 Ohms 60 Ohms
25 Pt, 0 to 100°C A = 0.00392 140 Ohms 60 Ohms
26 Pt, 0 to 200°C A = 0.00392 200 Ohms 60 Ohms
27 Pt, 0 to 600°C A = 0.00392 440 Ohms 60 Ohms
28 Ni, -80 to 100° C 200 Ohms 60 Ohms
29 Ni, 0 to 100°C 200 Ohms 60 Ohms
Table 3: Calibration resistances of ADAM-5013
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ADAM-5017 8-channel analog input module
The ADAM-5017 is a 16-bit, 8-channel analog differential input
module that provides programmable input ranges on all channels.
It accepts mill volt inputs (±150mV, ±500mV), voltage inputs (±1V, ±5V
and ±10V) and current input (±20 mA, requires 120 ohms resistor).
The module provides data to the host computer in engineering units
(mV, V or mA). This module is an extremely cost-effective solution
for industrial measurement and monitoring applications. Its opto-
isolated inputs provide 3,000 V
DC
of isolation between the analog input
and the module, protecting the module and peripherals from damage
due to high input line volt- age. Additionally, the module uses analog
multiplexers with active over- voltage protection. The active
protection circuitry assures that signal fidelity is maintained even
under fault conditions that would destroy other multiplexers. This
module can withstand an input voltage surge of 70 Vp-p with ±15 V
supplies. The jumpers of ADAM-5017 are designed for current input.
ADAM-5017
Figure 4: ADAM-5017 module frontal view
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ADAM-5000 Series I/O Module User’s Manual
Application wiring
Figure 5: Millivolt and volt input
Figure 6: Process current input
Note: To keep measurement accuracy please short the channels that
are not in use.
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Technical specifications of ADAM-5017
Analog Input Channels Eight differential
Input Type mV, V, mA
Input Range ± 150 mV, ± 500 mV, ± 1 V, ± 5 V, ± 10 V
and ± 20 mA
Isolation Voltage 3000 VDC
Sampling Rate 10 samples/sec (total)
Analog Input Signal Limit 15 V max.
Max. allowable voltage difference
between two connectors in a
module
15 V max.
Input Impedance 2 Mohms
Bandwidth 13.1 Hz @ 50 Hz, 15.72 Hz @ 60 Hz
Accuracy ± 0.1% or better
Zero Drift ± 1.5 µV/°C
Span Drift ± 25 PPM/°C
CMR @ 50/60 Hz 92 dB min.
Power Requirements + 10 to + 30 VDC (non-regulated)
Power Consumption 1.2 W
Table 4: Technical specifications of ADAM-5017
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ADAM-5000 Series I/O Module User’s Manual
ADAM-5017P 8-channel analog input module with
independent input range
The ADAM-5017P is a 16-bit, 8-channel analog differential input and
independent configuration module. It accepts mill volt inputs (±150mV,
±500mV, 0~150mV, 0~500mV, 0~1V, 0~5V, 0~10V, 0~15V), voltage
inputs (±1V, ±5V, ±10V, and ±20V) and current input (±20 mA,
4~20mA, requires 120 ohms resistor). The module provides data to
the host computer in engineering units (mV, V (supports uni-poloar
and bipolar) or mA). This module is an extremely cost-effective
solution for industrial measurement and monitoring applications. Its
high common mode provides 200 V
DC
, protecting the module and
peripherals from damage due to high input line volt-age. Additionally,
the module uses analog multiplexers with active over-voltage
protection. The active protection circuitry assures that signal
fidelity is maintained even under fault conditions that would
destroy other multiplexers. This module can withstand an input voltage
surge of ±60 V
DC
.
ADAM-5017P
Figure 7: ADAM-5017P module frontal view
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Application wiring
Figure 8: Millivolt and volt input
Figure 9: Process current input
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ADAM-5000 Series I/O Module User’s Manual
Figure 13: Locations of Jumpers
Note: To maintain measurement accuracy pleases short channels not in
use.
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Technical specifications of ADAM-5017P
Analog Input Channels Eight differential and independent
Input Type mV, V(uni-polar and bipolar), mA
Input Range
± 150 mV, ± 500 mV, ± 1 V, ± 5 V, ± 10 V,
0~150mV, 0~500mV, 0~1V, 0~5V, 0~10V,
0~15V and ± 20 mA, and 4~20mA
High common mode 200 VDC
Sampling Rate 10 samples/sec (total)
Resolution 16 bits
Over Voltage ±60 VDC
Input Impedance 20 Mohms Voltage
120 ohms Current
Built-in TVS/ESD protection yes
Accuracy ± 0.1% or better Voltage mode
± 0.2% or better Current mode
Zero Drift ± 6 µV/°C
Span Drift ± 25 PPM/°C
CMR @ 50/60 Hz 92 dB min.
Power Consumption 1.25 W (Max)
Table 5: Technical specifications of ADAM-5017P
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ADAM-5000 Series I/O Module User’s Manual
ADAM-5017H 8-channel high speed analog input module
The ADAM-5017H is a 12-bit plus sign bit; 8-channel analog differential
input module that provides programmable input ranges on each channel. It
accepts mill volt inputs (± 500 mV, 0-500 mV), voltage inputs (±1 V, 0-1
V, ±2.5 V, 0-2.5 V, ±5 V, 0-5 V, ±10 V and 0-10 V) and current inputs (0-20 mA
and 4-20 mA; it was built in a 200 ohms resistor). The module provides
data to the host microprocessor in engineering units (mV, V or mA) or
two’s complement format. Its sampling rate depends on the data
format received: up to 100 Hz (total). Each input channel has 3000 V
DC
of optical isolation between the outside analog input line and the
module, protecting the module and peripherals from high input line
voltages. Addition- ally, the module uses analog multiplexers with active
over-voltage protection. The active protection circuitry assures that
signal fidelity is maintained even under fault conditions that would
destroy other multiplexers. The analog inputs can withstand a constant
70 Vp-p input with ±15V supplies. The jumpers of ADAM-5017H are
designed for current input.
ADAM-5017H
Figure 10: ADAM-5017H module frontal view
I/O Module Introduction
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Application wiring
Figure 11: Millivolt and volt input
Figure 12: Process current input
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ADAM-5000 Series I/O Module User’s Manual
Figure 13: Locations of Jumpers
Note: To maintain measurement accuracy pleases short channels not in
use.
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Technical specifications of ADAM-5017H
Analog Input Channels 8 differential
ADC Resolution 12 bits, plus sign bit
Type of ADC Successive approximation
Isolation Voltage 3000 VDC
Sampling Rate 100 Hz
Input Impedance 20 Mohms (voltage inputs)
200 ohms (current inputs; built in on the board)
Signal Input Bandwidth 1000 Hz for both voltage inputs and current
inputs
Analog Signal Range ±15 V max.
Analog Signal Range for any
two measured Pins
±15 V max.
Power Requirements +10 to +30 VDC (non-regulated)
Power Consumption 1.8 W
Accuracy ± 0.1% or better
Table 5: Technical specifications of ADAM-5017H
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ADAM-5000 Series I/O Module User’s Manual
Input
Range With
O
verranging Offset
Error @
25°C
Offset
Error
@ -10
to
+70°C
Gain
Error
@ 25°C
Gain Error
@ -10
To
+70°C
Offset
Drift Gain
Drift Display
Resolution
Voltage
Inputs
0 ~ 10
V
0 ~ 11 V ±1
LSB
±2
LSB
±1
LSB
±2 LSB 17
µV/°C
50
ppm/°
C
2.7 mV
0 ~ 5 V 0 ~ 5.5 V ±1
LSB
±2
LSB
±1.5
LSB
±2 LSB 16
µV/°C
50
ppm/°
C
1.3 mV
0 ~ 2.5
V
0 ~ 2.75 V ±1
LSB
±2
LSB
±1.5
LSB
±2 LSB 20
µV/°C
55
ppm/°
C
0.67 mV
0 ~ 1 V 0 ~ 1.375
V
±1
LSB
±2.5
LSB
±2
LSB
±2.5 LSB 20
µV/°C
60
ppm/°
C
0.34 mV
0 ~ 500
mV
0 ~ 687.5
mV
- ±5
LSB
±3
LSB
±3.5 LSB 20
µV/°C
67
ppm/°
C
0.16 mV
± 10 V ±11 V ±1
LSB
±2
LSB
±1
LSB
±2 LSB 17
µV/°C
50
ppm/°
C
2.7 mV
± 5 V ±0 ~ 5.5 V ±1
LSB
±2
LSB
±1.5
LSB
±2 LSB 17
µV/°C
50
ppm/°
C
1.3 mV
± 2.5 V ±0 ~ 2.75
V
±1
LSB
±2
LSB
±1.5
LSB
±2 LSB 20
µV/°C
55
ppm/°
C
0.67 mV
± 1 V ±0 ~ 1.375
V
±1
LSB
±2.5
LSB
±2
LSB
±2.5 LSB 20
µV/°C
60
ppm/°
C
0.34 mV
± 500
mV
±0 ~ 687.5
mV
- ±5
LSB
±3
LSB
±3.5 LSB 20
µV/°C
67
ppm/°
C
0.16 mV
Current
Inputs
0 ~ 20
mA 22 mA ±1
LSB
±1
LSB
±1.5
LSB ±2 LSB nA/°C ppm/°
C 5.3 µΑ
4 ~ 20
mA 22 mA ±1
LSB
±1
LSB
±1.5
LSB ±2 LSB nA/°C ppm/°
C 5.3 µΑ
Table 6: ADAM-5017H input signal ranges
This manual suits for next models
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