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The IC670MDL331 is a field control I/O module manufactured by GE Fanuc. The module is a discrete output module with eight (8) channels in four (4) groups of two (2) channels each. It provides an output voltage range of 85-132 VAC, a nominal output of 120 VAC, and a maximum output current of 2 A per channel.The module has a backplane current consumption of 154 mA.

About the IC670MDL331

This IC670MDL331 is manufactured by GE Fanuc and is part of the Field Control family. It is an I/O module, specifically, a discrete output module with eight (8) output channels divided into four (4) with two (2) channels each. It provides an output voltage of 85-132 VAC, 47-63 Hz, and a nominal output level of 120 VAC.Each channel of the module is designed to provide a maximum output current of 2 amps, making the module compatible with inductive loads.

Although the IC670MDL331 is rated for 2 A per channel, the maximum output per group is limited to a maximum of 2 A. Additionally, the maximum output per module is limited to 6A – 8 A. The module is equipped with LED status indicators, such as Logic Side Indicators, describing the on and off status of each channel, and Fuse OK LEDs, indicating the status of the fuses mounted inside each channel group. status of the fuses installed inside each channel group.

The IC670MDL331 is used in conjunction with a Bus Interface Unit (BIU). This BIU sends individual channel status to a host controller that resides on a protocol supported by the BIU. In addition, the controller can access the diagnostic status of the IC670MDL331 through the BIU.

Power Sources

The module receives power from the Field Processor to run its own 5–volt logic. An external

24VDC supply is needed to power the input devices.

LEDs

Individual LEDs (logic side), visible through the transparent portion of the module top,

indicate the on/off status of each input. The PWR LED is on when field and backplane power

are present.

Host Interface

Intelligent processing for this module is performed by the Bus Interface Unit or elsewhere in

the system. This includes configuring features such as input defaults and fault reporting. The

module has 16 bits (two bytes) of discrete input data. A Bus Interface Unit is required to

provide this input data to the host and/or local processor.

Module Operation

A network of resistors and capacitors establishes input thresholds and provides input filtering.

Optoisolators provide isolation between the field inputs and the module’s logic components.

Data from all 16 inputs is placed into a data buffer. The module’s circuit LEDs show the

current states of the 16 inputs in this data buffer.

Parallel–to–seri al converters change input data from the data buffer into the serial format

needed by the Bus Interface Unit.

After checking the Board ID and verifying that the module is receiving appropriate logic power

from the Bus Interface Unit (which is reflected by the state of the module’s Power LED), the Bus

Interface Module then reads the filtered, converted input data.

Power Sources

The module receives power from the Bus Interface Unit for its own operation. An external 48

VDC supply is needed to power the input devices.

LEDs

Individual LEDs (logic side), visible through the transparent portion of the module top,

indicate the On/Off status of each input. The PWR LED is On when field and backplane

power are present.

Host Interface

Intelligent processing for this module is performed by the Bus Interface Unit or elsewhere in

the system. This includes configuring features such as input defaults and fault reporting.

The module has 16 bits (two bytes) of discrete input data. A Bus Interface Unit is required

to provide this input data to the host and/or local processor.

Module Operation

A network of resistors, capacitors, and zener diodes establishes input thresholds and provides

input filtering. Optoisolators provide isolation between the field inputs and the module’s logic

components. An oscillator and switch form a sampling circuit that is transparent to the

controller and the LEDs that indicate the state of the inputs. Data from all 16 inputs is placed

into a data buffer. The module’s circuit LEDs show the current states of the 16 inputs in this

data buffer.

Parallel-to-serial converters change input data from the data buffer into the serial format

needed by the Bus Interface Unit.

This IC670MDL740 is a positive logic discrete output module manufactured by GE Fanuc. The module is a general-purpose output module that is mounted on a Bus Interface Unit (BIU) to implement an extended I/O solution. It is typically used for energised output devices such as indicator lights, relay coils, solenoid driven devices and similar devices with low current ratings because the IC670MDL740 provides 10.30 amps of output current per channel and a total of 24 amps of output current per module over a voltage output range of 0-5 VDC and a nominal voltage of 4 VDC.

The IC670MDL740 is designed with individual status LEDs to indicate the on/off status of each output channel of the module. 

The entire I/O group is fitted with a common fuse that is also assigned an LED to describe the blown fuse status. The module generates an inrush current rated at 2 amps with a maximum duration of 100 ms. The output channels have a minimum load current of 1 mA per point, an output voltage drop of 0.5 V, an output leakage current of 5.30 mA at 0 VDC, and a typical response time for on and off signal transitions.

The IC670MDL740 comes with an integrated terminal block consisting of 25 terminals. Each terminal is designed to terminate one AWG #14 – AWG #22 wire or two (18) wires using AWG #2 wire. By installing external jumpers on this module, the allowable wire size is reduced to AWG #14 to AWG #16.

The Field Control IC670MDL742 DC Negative Output Module is a GE Fanuc 5-, 12-, and 24-volt DC rated output module with 16 negative logic discrete outputs.

The outputs are used as current-sucking outputs to switch the load to the negative side of the DC power supply.Power for the IC670MDL742 DC Negative Output Module is provided by the bus interface module.

It is recommended that an external DC power module be used to provide the power required by the load. The module contains a 10 ampere rated fuse for connection to an external power source.

There is a clear potion on the top of the module for clearly visible LED indicators.

The IC670MDL742 DC Negative Output Module performs processing through the bus interface unit.

The bus interface module also helps to collect output data from a host device or processor.

Its PWR indicator LED can be used to check that the module’s backplane power is present and that the fuse is not blown.

The module’s logic power is received from the Bus Interface Unit. An optoisolator isolates the module’s logic components from the field outputs.

It consists of FETs powered from an external supply to absorb the current flowing through the load.

The outputs are capable of absorbing up to 0.5 amps per point. The total steady-state load for the entire module is 8 amps.

The IC670MDL742 DC Inverting Output Module has one set of outputs and does not provide isolation between points in the set.

It is supplied with an easily removable fuse to protect the outputs from high currents or reversal of power supply polarity.

The IC670MDL930 is a relay output module from GE Fanuc’s field control module series. The module features individually isolated channels, specifically six (6) Type A or Normally Open (N.O.) contacts and two (2) Type C Normally Open (N.O) and Normally Closed (N.C.) contact outputs.

Each output contact is rated at 5VDC / 24 VDC / 125 DC or 120 / 240 VAC nominal, with an actual voltage range of 0-130 VDC, 0-265 VAC, 47-63 Hz, and a maximum load current of 16 A per module.The modules are available in a fixed-coil, moving-armature relay type with a maximum current draw of 313 mA.

The module has typical isolation ratings between input-to-logic, user input-to-frame ground, and group-to-group isolation, specifically, 250 VAC continuous, 1500 VAC for 1 minute.

The module has a maximum current rating of 2.0 amps for resistive loads, a voltage range of 5 to 265 VAC; 5.30 amps for 2 to 0 VDC and 31.125 amps for 0 to 2 VDC, and a maximum inrush current of 5 A for 20 ms, with a maximum load current of 10 mA per input The module has a typical response time of 10 ms to ON and OFF signal transitions, and if used with inductive loads, the response time is 10 ms per input. The module’s response time to ON and OFF signal transitions is typically 10 ms, and when used with inductive loads, the maximum switching frequency is 20 cycles per minute per channel.

The IC670PBI001 is a Profibus interface unit that is part of the GE Fanuc field control family. This electrical device is mounted on the bus interface terminals and is powered by an external 24 VDC supply voltage. It allows field control I/O modules to exchange data with GE CPU modules over a Profibus network, enabling a high-speed distributed I/O architecture.

The IC670PBI001 is equipped with two (2) 9-pin D-shell connectors, one of which serves as a Hand Held Programmer (HHP) port for downloading and monitoring the IC670PBI001. while the other serves as a network interface port for data transfer at 9.6. 19.2. 93.75. 187.5. 500. 1500 Kbits, 3 Mbits, and 3 Mbits. The other port is used as a network interface port and communicates via the Profibus network at standard data rates of 9.6. 19.2. 93.75. 187.5. 500. 1500 Kbits, 3 Mbits 6 Mbit and 12 Mbits. This port requires shielded twisted pair or Belden #9463 cable as the physical medium for the Profibus network. The port supports linear Profibus topology or daisy-chain connections where the first and last nodes of the network are terminated by resistors. A single IC8PBI670 can host up to eight (001) field control I/O modules.