ES-2764 Rev.3

M5XTR

Super-mini Terminal Block Signal Conditioners M5X-UNIT

UNIVERSAL TEMPERATURE TRANSMITTER

(PC programmable)
Functions & Features
• Universal input (T/C and RTD) 
• I/O range programming via DIP switch or PC Configurator
• High-density mounting
• Power indicator LED

MODEL: M5XTR–1-R[1]

ORDERING INFORMATION

• Code number:  M5XTR-1-R[1]
Specify a code from below for [1].
  (e.g. M5XTR-1-R/Q)
• Specify the specification for option code /Q
  (e.g. /C01/S01/SET)

INPUT – Field-selectable

Thermocouple
K(CA), E(CRC), J(IC), T(CC), B(RH), R, S, C(WRe 5-26),
D(WRe 3-25), N, U, L
RTD
Pt 100 (JIS'97, IEC), Pt 500, Pt 1000, JPt 100 (JIS'89)

EXTERNAL INTERFACE

◆ OUTPUT SIGNAL
1: DC output (field-selectable)
   • Current output: 0 - 20 mA DC
   • Voltage output: -5 - +5 V DC
   • Voltage output: -10 - +10 V DC

POWER INPUT

DC Power
R: 24 V DC
(Operational voltage range 24 V ±10 %, ripple 10 %p-p max.)

[1] OPTIONS

blank: none
/Q: With options (specify the specification)

SPECIFICATIONS OF OPTION: Q (multiple selections)

COATING (For the detail, refer to our web site.)
/C01: Silicone coating
/C02: Polyurethane coating
/C03: Rubber coating
TERMINAL SCREW MATERIAL
/S01: Stainless steel
EX-FACTORY SETTING
/SET: Preset according to the Ordering Information Sheet
 (No. ESU-2764)

RELATED PRODUCTS

• PC Configurator cable (model: COP-US)
• PC configurator software (model: M5CFG)
Downloadable at our web site.

GENERAL SPECIFICATIONS

Construction: Terminal block
Connection: M3.5 screw terminals (torque 0.8 N·m)
Screw terminal: Nickel-plated steel (standard) or stainless steel
Housing material: Flame-resistant resin (black)
Isolation: Input to output to power
Cold Junction Compensation (thermocouple input): CJC sensor incorporated
Power Indicator LED: Green LED
Programming: Downloaded from PC;
• input sensor type
• input range
• burnout
• output range
• output limit
• filter time constant (Default setting: 0 sec.)
• user’s linearization table
• Loop test output

INPUT SPECIFICATIONS

The input type is factory-set to K thermocouple, and the input range to 0 to 100°C.
Input type and accuracy: Refer to table 1
Thermocouple
Input resistance:
≥ 1 MΩ
Sensor abnormality detection: Burnout (open)
RTD (2-wire, 3-wire or 4-wire)
Input resistance:
≥ 1 MΩ
Excitation: ≤ 0.3 mA
Allowable leadwire resistance: Max. 20 Ω per wire
Sensor abnormality detection: Burnout or short circuit
(≤ 5 Ω)

OUTPUT SPECIFICATIONS

Standard default setting: DC current output 4 - 20 mA, burnout 23 mA
Output type
• DC current output: 0 - 20 mA DC
• DC voltage output: -10 - +10 V DC
• DC voltage output: -5 - +5 V DC
(3 types can be switched by DIP switch and PC)
■ DC Current: 0 – 20 mA DC
Output range: 0 - 23 mA DC
Minimum span: 1 mA
Load resistance: 550 Ω
DC Voltage
Output range -10 - +10 V DC
  Voltage range: -11.5 – +11.5 V DC
  Minimum span: 1 V
  Load resistance: Output drive 1 mA max.
  (ex. 0 - 10 V DC: 10 V ÷ 1 mA = 10 kΩ)
Output range -5 - +5 V DC
  Voltage range: -5.75 – +5.75 V DC
  Minimum span: 500 mV
  Load resistance: Output drive 1 mA max.
  (ex. 1 - 5 V DC: 5 V ÷ 1 mA = 5000 Ω)

INSTALLATION

Power consumption
DC: ≤ 1 W
Operating temperature: -20 to +65°C (-4 to +149°F)
Operating humidity: 30 to 90 %RH (non-condensing)
Weight: 80 g (2.8 oz)

PERFORMANCE in percentage of span

Cold junction compensation error: ±3°C (±5.4°F)
(The described accuracy may be partially not satisfied when the input temperature is below 0°C. Consult factory.)
Temp. coefficient: ±0.0075 %/°C (0.004 %/°F)
Response time: ≤ 1 sec. (0 – 90 %)
Burnout response time: ≤ 1 sec.
Line voltage effect: ±0.1 % over voltage range
Insulation resistance: ≥ 100 MΩ with 500 V DC
Dielectric strength: 2000 V AC @1 minute  (input to output to power to ground)

ACCURACY AND CALCULATION EXAMPLES

Overall Accuracy
The accuracy includes input accuracy, which converts the sensor input into a digital value, and output accuracy, which converts the digital value into an analog signal.
The accuracy of the device is the total of the input accuracy and the output accuracy.
Input accuracy
Accuracy of each input is as table 1.
For RTD, the table or ±0.05 % of setting value span, whichever is greater.
For thermocouple, add CJC error 3℃ to the above.
Output accuracy
Output accuracy for the setting value span is shown as following formula.
Output accuracy = (output range ÷ output setting value span) × 0.02 %
For current output,
Output accuracy = (output range ÷ output setting value span) × 0.04 %
Calculation examples
Ex1: RTD Pt 100 0 - 500℃, output 4 - 20 mA
Input accuracy = 0.15℃ ÷ 500℃ = 0.03 %
0.03 % < 0.05 % -> input accuracy is 0.05 %
Output accuracy = (20 mA ÷ 16 mA) × 0.04 % = 0.05 %
Accuracy = input accuracy 0.05 % + output accuracy 0.05 % = 0.1 %
Ex2: K thermocouple 0 - 700℃, output 0 - 10 V
Input accuracy = 0.5℃ + CJC error 3℃ = 3.5℃
3.5℃ ÷ 700℃ = 0.5 %
Output accuracy = (20 V ÷ 10 V) × 0.02 % = 0.04 %
Accuracy = input accuracy 0.5 % + output accuracy 0.04 % = 0.54 %

STANDARDS & APPROVALS

EU conformity:
EMC Directive 
  EMI EN 61000-6-4
  EMS EN 61000-6-2
RoHS Directive

INPUT TYPE, RANGE & CONVERSION ACCURACY

[Table1]

EXTERNAL VIEW

EXTERNAL DIMENSIONS & TERMINAL ASSIGNMENTS unit: mm [inch]

SCHEMATIC CIRCUITRY & CONNECTION DIAGRAM