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1734-IE4C New In Stock 734IE4C Analog Input Module

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1734-IE4C New In Stock 734IE4C Analog Input Module

1734-IE4C New In Stock 734IE4C Analog Input Module

PRODUCT DETAILS

1734-IE4C — POINT I/O 4-Channel 4–20 mA Analog Input Module

The 1734-IE4C is a four-channel current input module for the 1734 POINT I/O system. Each channel reads a 4–20 mA signal from a field transmitter and presents the value as a 16-bit integer to the controller. Four channels in a single POINT I/O slot keeps analog point count manageable without consuming multiple node positions for small-to-moderate instrument counts. The module requires an external 24V DC loop supply — it doesn't source loop power internally.

Specifications

Parameter Value
Part Number 1734-IE4C
Platform POINT I/O (1734)
Input Channels 4
Input Range 4–20 mA
Resolution 16-bit
Accuracy ±0.1% of full scale @ 25°C
Max Input Impedance 250 Ω (module input resistance)
Under-range Detection Yes — status bit set below 3.5 mA
Loop Supply External 24V DC (user-supplied)
Channel Isolation Not isolated — channels share common
Backplane Current (5V) 80 mA
Operating Temperature −20°C to 55°C
Standards UL 508, CE, IEC 61131-2

4–20 mA at a Distributed POINT I/O Node

The 1734-IE4C fits into the distributed POINT I/O architecture — installed in a local junction box or remote enclosure close to the field instruments, connected back to the controller via EtherNet/IP, DeviceNet, or ControlNet through the adapter module at the node head. This eliminates long analog signal cable runs back to a central I/O panel, which matter for 4–20 mA: while current loops reject noise well, very long runs still accumulate capacitive loading that slows signal response, and cable resistance in the loop must stay within the transmitter's loop supply headroom.

All four channels share a common reference — not isolated from each other or the backplane. Field instruments connected to this module must share the same ground reference. Instruments on different electrical systems or with separate ground references will create ground loops, appearing as measurement offset or noise on affected channels. If field instruments come from different systems, signal isolators are required between the transmitter and the module, or use an isolated analog input module.

Loop Wiring and Scaling

  • The external 24V DC loop supply connects to the transmitter's power terminals; the transmitter modulates its output current; the current flows through the module's 250 Ω input impedance and back to supply negative. Verify total loop resistance (cable + 250 Ω) stays within the transmitter's maximum loop voltage specification at 20 mA.
  • Use the under-range status bit in the controller program for open-circuit detection. Below 3.5 mA, the module sets this bit — wire-break and transmitter failure both manifest as sub-4 mA signal levels that a standard PV check wouldn't catch in the 4–20 mA range.
  • Scale the 16-bit count to engineering units in Studio 5000 using the SCL instruction or module configuration's engineering unit scaling dialog. Verify the engineering unit high and low values match the transmitter's span before putting the measurement into control service.

FAQ

Q: Does the module supply loop power to the transmitters?

No. Loop power (24V DC) must be supplied externally. The module only reads the current flowing through its input terminals — it provides no internal transmitter power.

Q: Can a 0–20 mA transmitter be used with this module?

Electrically yes — the module reads any current up to 20 mA. But the under-range detection (below 3.5 mA) will trigger nuisance faults at the 0–4 mA portion of the range. This module is specifically calibrated and optimized for 4–20 mA use; for 0–20 mA, select a module rated for that range.

Q: How are instruments on different ground references handled?

Use individual signal isolators (loop isolators) between each transmitter and its module input. A loop isolator breaks the ground path between the field instrument and the module while passing the 4–20 mA signal — eliminating the common-mode path that creates ground loops.

Q: What adapter modules are compatible with the 1734-IE4C?

All standard 1734 adapters — EtherNet/IP (1734-AENT), DeviceNet (1734-ADN), ControlNet (1734-ACN), and others. The analog module communicates through the POINT I/O backplane and is protocol-agnostic.

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