BENSHAW SPR-100P Manuel utilisateur
The Leader In
Solid State Motor Control
Technology
Publication #: 890010-00-04
REMOTE RTD
MODULE
TABLE OF CONTENTS
1. INTRODUCTION....................................... 4
1.1 How To Use This Manual.................................. 4
1.2 Product Description ..................................... 4
1.3 Theory of Operation ..................................... 4
2. TECHNICAL SPECIFICATIONS .............................. 6
2.1 Specifications......................................... 6
2.2 Physical ............................................ 7
3. INSTALLATION OF THE REMOTE RTD MODULE ..................8
3.1 Physical Installation ..................................... 8
3.2 Power Wire Connections .................................. 8
3.3 RS-485 Wiring ........................................ 8
3.4 RTD Wire Connections ................................... 9
3.5 Wiring Diagram ....................................... 9
4. COMMUNICATING WITH THE REMOTE RTD MODULE .............10
4.1 Modbus Communications ................................. 10
4.2 Modbus Input Registers................................... 10
4.3 Modbus Holding Registers ................................. 11
4.4 Modbus Commands ..................................... 11
4.5 Modbus Exception Responses ............................... 12
4.6 Indicating LEDs ....................................... 13
iii
TABLE OF CONTENTS
1.1 How To Use This Manual
General The Benshaw Remote RTD Module manual provides the following information;
•Product Description.
•Specifications.
•Installation.
•Use.
How To Use This Manual The Benshaw Remote RTD Module manual is divided into 4 sections;
•Introduction.
•Technical Information.
•Installation.
•Operation.
1.2 Product Description
General The Remote RTD Module is designed to monitor up to 8 RTDs and report their
temperatures across a serial communications link.
Features The RTD Module provides the following features;
•Monitors up to 8 3-wire RTDs.
•Lead Resistance Compensation.
•RTD open detection.
•RTD shorted detection.
•Modbus communications over RS-485.
1.3 Theory of Operation
General The Remote RTD Module makes a compensated measurement of a RTD (Resistive
Temperature Device). This is accomplished by using three wires to connect the RTD to
the module.
The Remote RTD module provides 10mA of current from H (Hot) and C
(Compensation) terminals. The two currents add at the RTD and 20mA is returned to
the R (Return) terminal. The following diagram illustrates this;
4
1. INTRODUCTION
R
C
H
Remote
RTD
Module
RTD
10mA
20mA
10mA
Compensation
Return
Hot
The connection wire from the Remote RTD Module to the RTD will typically have all
three conductors the same size and length. This means that the resistance of each
conductor will be the same. Call the resistance of each conductor Rlead.
From the above, the following equations can be seen;
V V V V = 20mA R +10mA R +10mA
RH R lead RTD H lead lead RTD=++ ´ ´ ´Rlead
V V V = 10mA R + 20mA RCR C lead R lead lead lead=+ ´ ´
Subtracting these two equations and subsituting Rlead for the different lead resistance
provides the following;
()()
V V 30mA R 10mA R 30mA RRH CR lead RTD lead-= ´ + ´ - ´
V V 10mA R
RH CR RTD-= ´
This calculation gives the voltage across the RTD independant of the connection wire
resistance. By performing this calculation, the Remote RTD Module compensates for
the conductor resistance and gets the true value for the RTD resistance.
The Remote RTD Module then converts the measured voltage across the RTD to the
temperature that the RTD is measuring. This is possible because the RTD conforms to
a standard resistance vs temperature curve.
5
1. INTRODUCTION
2.1 Specifications
General The following table lists the specifications for the RTD module.
Model Number SPR-100P
RTD Type 100WPlatinum, 3 lead
TCR (a)0.00385 W/W/°C
(DIN 43760)
Maximum Lead
Resistance
25Wper lead
Recommended Lead
Resistance
Less than 16Wper lead
Shorted Lead Detection <60W
Open Lead Detection > 260W
RTD Sensing Current 10 mA DC
RTD Sensing Voltage 10V DC maximum
Range 0to200°C (32 to 392 °F)
Resolution 1°C (1.8 °F)
Accuracy ±1.0% full scale (±2°Cor±3.6 °F)
Sampling Rate 1 RTD per second
Number of RTDs 8
Input Voltage 24 Volts DC ±20%
Power Consumption 2.5 Watts
Inrush Current 15 Amps for .5 m-seconds
Communication Type RS-485
Communication Protocol Modbus®RTU
Modbus®Addresses 16 to 23
Baud Rate 19200 bps
Operating Environment -40 to 60 °C (-40 to 140 °F), up to 95% R.H., non-condensing
Storage Environment Up to two years at -40 to 70 °C (-40 to 158 °F), up to 95% R.H., non-condensing
Terminal Strips Accepts one or two stranded copper wires of the same size from 12 to 30 AWG
Dimensions 5½"Wx3½"Hx2¼"D
Dust/Moisture IP20
Weight 12.5 ounces (356 grams)
Listing
6
2. TECHNICAL SPECIFICATIONS
2.2 Physical
Construction The following diagram shows the physical construction of the Remote RTD Module;
7
2. TECHNICAL SPECIFICATIONS
3.1 Physical Installation
Location The mounting location for the Remote RTD Module should be chosen to give easy
access to the RTD wiring as well as providing a location to mount the power supply.
The Remote RTD Module is specifically designed to be mounted close to the
equipment it is monitoring. This eliminates long RTD wire lengths which save time
and money on installation and wiring.
Site Requirements The installation location must meet the following specifications;
•Temperature: -40oCto60
oC.
•Humidity: up to 95%, non-condensing.
Mounting The Benshaw Remote RTD Module is designed to mount on industry standard 35mm
wide by 7.5mm deep DIN rail. The Remote RTD Module should be mounted in a
location that allows access to the control terminals and visual inspection of the
indicator LEDs.
Modbus Address Set the rotary switch on the top of the Remote RTD Module to the desired Modbus
address.
3.2 Power Wire Connections
Power Connections The 24VDC power source is connected to the following terminals.
•24VDC – - Negative connection to 24VDC power supply
•24VDC + - Positive connection to 24VDC power supply
•g- Chassis ground connection
3.3 RS-485 Wiring
RS-485 Communications The RS-485 communications wiring should use shielded twisted pair cable. The shield
should only be terminated at one end. The connections are as follows;
•A (–) - RS485 negative communications connection.
•B (+) - RS485 positive communications connection.
•Com - RS485 common connection.
RS-485 Cable Specification The RS-485 communications cable should conform to the following specification;
•Conductors - 2 twisted pair (one pair signal plus one for signal common).
•Gauge - 16 to 24 AWG stranded, tinned copper.
•Impedance - 100 to 120 Ohms.
•Capacitance - 15.5pF/ft. or less.
•Shield - Overall Shield.
RS-485 Topology The RS-485 network should be wired in a daisy-chain configuration. Avoid using star
or stub configurations.
RS-485 Shielding The RS-485 shield should be terminated at only one point in the network, preferably
at the master device. Do not connect the RS-485 shield to the RTD shield terminals.
RS-485 Termination A 120Wresistor may optionally be installed between the A(-) and B(+) terminals if the
Remote RTD Module is the end device on the RS-485 network. The terminating
resistor may be necessary if the RS-485 cable is extremely long. Do not install a
terminating resistor if the Remote RTD Module is not the end device on the network.
There should never be more than two terminating resistors on the network.
8
3. INSTALLATION OF THE REMOTE RTD MODULE
3.4 RTD Wire Connections
RTD Connections Each Remote RTD Module has connections for up to 8 RTDs. The terminals for the
RTD wires are as follows;
•R - RTD return wire.
•C - RTD compensation wire.
•H - RTD hot wire.
Each RTD is connected to the three terminals with the common number. For example,
RTD number 5 connects to the terminals numbered 5R, 5C, and 5H.
RTD Cable Specification Benshaw recommends using 3-wire twisted (triad) shielded cable to connect the RTDs
to the RTD module. It is important to keep the three wires of the same length and
type for accurate lead resistance compensation.
RTD Cable Shielding The RTD cable shield should be terminated at either of the shield terminals. For a
simpler installation, a cable containing multiple triads with an overall shield can be
used to connect a group of RTDs to the module with a single cable.
3.5 Wiring Diagram
General The following is the wiring diagram detailing the connections of the RTD module.
Only the wiring for RTD #5 is shown as the typical connection, but all the other RTDs
connect similarly.
9
3. INSTALLATION OF THE REMOTE RTD MODULE
RTD #5
(Typical)
H
C
R
RS-485 Master
Device
ComA(-)B(+)Shld
24 VDC
Power
Supply
V- V+
Tx RxStatus
8R8C8H7R7C7H6R6C6H5R5C5H Shld
4R4C4H3R3C3H2R2C2H1R1C1H Shld 24 VDC
+
B(+)A(-)Com
RS-485
Remote
RTD Module
BENSHAW
ADVANCED CONTROLS & DRIVES
4.1 Modbus Communications
General The Remote RTD Module uses an industry standard RS-485 port, communicating as a
Modbus RTU slave. The Remote RTD Module has the following communications
features;
•RS-485 port.
•19200 bits per second communications rate.
•8 data bits, 1 stop bit, no parity.
•Modbus RTU slave, addresses 16 to 23.
4.2 Modbus Input Registers
General The Benshaw Remote RTD Module has a number of Modbus input registers. These
registers are used to read the temperatures measured by the eight RTDs.
Registers The following table lists the Modbus input registers;
Register Description Values
30001 RTD 1 0 to 200 - Temperature in degrees Celsius
30002 RTD 2 0 to 200 - Temperature in degrees Celsius
30003 RTD 3 0 to 200 - Temperature in degrees Celsius
30004 RTD 4 0 to 200 - Temperature in degrees Celsius
30005 RTD 5 0 to 200 - Temperature in degrees Celsius
30006 RTD 6 0 to 200 - Temperature in degrees Celsius
30007 RTD 7 0 to 200 - Temperature in degrees Celsius
30008 RTD 8 0 to 200 - Temperature in degrees Celsius
30009 Shorted RTD A bit is set if an RTD has a shorted lead. Otherwise, it is
clear. The set bit is as follows;
Bit 0: RTD 1 shorted.
Bit 1: RTD 2 shorted.
Bit 2: RTD 3 shorted.
Bit 3: RTD 4 shorted.
Bit 4: RTD 5 shorted.
Bit 5: RTD 6 shorted.
Bit 6: RTD 7 shorted.
Bit 7: RTD 8 shorted.
Bits 8-15: unused.
30010 Open RTD A bit is set if an RTD has an open lead. Otherwise, it is
clear. The set bit is as follows;
Bit 0: RTD 1 open.
Bit 1: RTD 2 open.
Bit 2: RTD 3 open.
Bit 3: RTD 4 open.
Bit 4: RTD 5 open.
Bit 5: RTD 6 open.
Bit 6: RTD 7 open.
Bit 7: RTD 8 open.
Bits 8-15: unused.
10
4. COMMUNICATING WITH THE REMOTE RTD MODULE
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