JUXTA M Series Signal Conditioners

M Series signal conditioners are a plug-in type that can support a wide range of applications through a versatile I/O specifications. Plug-in type construction provides easy for instrumentation planning, field wiring and maintenance. Over 30 types of signal conditioners are lined up in M Series.

The M Series bring Yokogawa performance and reliability to the popular plug-in style. Plug-in type construction provides easy for instrumentation planning, field wiring and maintenance. Using industry standard pin configurations, anyone can upgrade to JUXTA performance by just plugging one in. Over 30 types of signal conditioners are lined up, and versatile I/O specifications can support a wide range of applications.

  • Plug-in type construction
    Easy for instrumentation planning, field wiring and maintenance because of its flexible insertion / extraction and ability to be pre-wired.
  • Versatile I/O specifications meeting a wide range of applications.
  • Two isolated outputs
    Output-1 can be changeover for 1 to 5 V DC or 4 to 20 mA DC by back-panel switch. Also isolated 1 to 5 V DC of Output-2 is available (MA5D, MH5D, MU5D, MS5D).
Construction Plug-in type (Main unit with Socket)
Mounting Method: Wall mounting or DIN-rail mounting
Connection Method: M3.5 screw terminal
External Dimensions: 1 output type: 85×50×123 mm (H×W×D)
2 outputs type: 85×50×132 mm (H×W×D)
Power Requirements:
(Also refer to the below table)
Type 1: 12 to 48 V DC or 85 to 264 V AC
Type 2: 85 to 132 V AC/24V DC or 180 to 264 V AC
Type 3: 24 V DC±10%, 85 to 132 V AC/85 to 150 V DC or 170 to 264 V AC
Type 4: 85 to 132 V AC or 170 to 264 V AC

 

Signal Conditioner

Model Product Name Input Type Output Type Power Supply Descriptions
MA1 Distributor 4 to 20 mA DC, from 2-wire type transmitter DC current or DC voltage signal Type 1 1-output type
MA5 Distributor (Free Range Type) Type 1 Free range type
MA4 Distributor (Non-isolated) Type 1 Non-isolated output
MA5D Distributor (2-output, Free Range Type) Type 1 2-output, free range type
MHF Isolator (Super Speed Response Type) DC Voltage or DC Current DC current or DC voltage signal Type 3 50 μsec. conversion for 63% response
MH1 Isolator Type 1 1-output type
MH5 Isolator (Free Range Type) Type 1 Free range type
MH1D Isolator (2-output Type) Type 1 2-output type
MH5D Isolator (2-output, Free Range Type) Type 1 2-output, free range type
MC1B Loop Powered Isolator (Dual Channels) 4 to 20 mA DC 4 to 20 mA DC Not required 2 channels type
MU5 Universal Temperature Converter (Free Range Type) Thermocouple, RTD, mV DC signal DC current or DC voltage signal Type 1 Free range type
MU5D Universal Temperature Converter (2-output, Free Range Type) Type 1 2-output, free range type
MS5 Potentiometer Converter (Free Range Type) Potentiometer resistance change (3-wire type) DC current or DC voltage signal Type 1 Free range type
MS5D Potentiometer Converter (2-output, Free Range Type) Type 1 2-output, free range type
MP1 Pulse Repeater Contact Pulse, Voltage Pulse or Current Pulse Open collector or Contactless AC switch Type 3 Pulse rate fixed in 1:1
MP4 Pulse Rate Converter Type 3 Field configurable pulse rate, etc.
MQ2 Pulse to Analog Converter (Free Range Type) DC Voltage or DC Current Type 3 Field configurable input / output range, etc.
MQ0 Analog to Pulse Converter DC Voltage or DC Current Open collector or Contactless AC switch Type 3 Fixed range type
MB1 CT Converter (RMS) AC Current from CT DC Voltage or DC Current Type 1 1 A or 5 A AC input
MG1 PT Converter (RMS) AC Voltage from PT Type 1 110 V or 150 V AC input
MD1 Tachometer Converter AC Voltage from tachometer Type 1 Mean value conversion of AC/DC.
ML2 RS232C/RS485 Converter RS232C/RS485 dual directional communication Type 3 Applicable baud rate: 300 to 38400 bps.
MLC Load Cell Converter Load cell signal DC Voltage or DC Current Type 3 With remote sensing function

【Support Information】List of RoHS

This is a list of recorder and controller products that support the RoHS (2011/65/EU) directive.

Overview:

In district heating/cooling and other systems, signals from flow meters can undergo temperature compensation in a totalizer to measure usage of warm water and other quantities. Here we give an example of how to perform temperature compensation of flow using the YS1700 Single Loop Controller in place of a dedicated totalizer.

Overview:

In 1973 the ISA (Instrument Society of America) defined 4–20 mADC analog as the standarized signals for industrial measuring instruments, and they are still used today for transmission signals. The following are typical Yokogawa field instruments that utilize these 4–20 mADC transmission signals.

Instruction Manuals
General Specifications
Technical Information
Drawings

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