IS2001M-353-40-SR4 — Industrial Signal Conditioning / DC-DC Module (Ambiguous P/N)
Ambiguous P/N · Verify Brand via Nameplate · In Stock for Sourcing
The IS2001M-353-40-SR4 is a composite / ambiguous industrial part number that KOEED sources
as a signal conditioning / isolation module or a DC-DC converter for
PLC and DCS analog I/O racks. The "IS2001M" prefix is consistent with several OEM
families (Cincon, Mornsun, and similar industrial power / signal conditioning
vendors), and the "SR4" suffix most commonly denotes a Series-4 variant or a
single-row 4-pin terminal layout. Because the brand stamp is not guaranteed
without inspecting the nameplate, our sourcing team treats it as
brand-ambiguous and matches it to the closest functional equivalent from
our Allen-Bradley,
Siemens,
Mitsubishi,
Omron,
Fanuc,
Schneider,
Yaskawa,
Panasonic and
KEYENCE
ecosystems when the customer cannot supply a photo. Stock availability and
price are confirmed on a per-RFQ basis — send your inquiry to
Moritta@KOEED.COM
and our team will respond within 24 hours on business days.
1. Key Technical Specifications & Overview
Because IS2001M-353-40-SR4 is a composite / ambiguous P/N, the
specification table below is a best-effort decode based on the
three most-likely functional categories the part number pattern matches.
Confirm the actual function by sending a nameplate photo to
Moritta@KOEED.COM
before committing to a replacement plan.
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Part Number (as printed)
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IS2001M-353-40-SR4
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Brand (claimed / typical)
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Ambiguous — likely Cincon / Mornsun / OEM-private-label industrial power or signal module. Verify via nameplate photo.
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Most-likely function
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Analog signal isolator / conditioner or industrial DC-DC converter (3 W class)
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Input range (typical, DC-DC variant)
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9 – 36 VDC nominal (24 VDC rail common in PLC cabinets)
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Output (typical, DC-DC variant)
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5 VDC / 12 VDC / 15 VDC / ±15 VDC isolated (single or dual)
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Signal (typical, isolator variant)
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4–20 mA / 0–10 V analog loop isolation, 3-way galvanic isolation
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Isolation voltage
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1.5 kVAC / 3 kVDC typical (input-to-output)
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Mounting / package
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DIN-rail or PCB-mount SIP/DIP; "SR4" suffix suggests single-row 4-pin terminal
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Operating temperature
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−40 °C to +85 °C (industrial grade)
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Compliance
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CE / RoHS typical for industrial automation modules
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Stock status
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Sourced on RFQ — send nameplate photo to
Moritta@KOEED.COM
for confirmation within 24h
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2. Application Scenarios — Where It Fits
When used as a 4–20 mA isolator or a 24 V-to-5 V/12 V DC-DC converter, the
IS2001M-353-40-SR4 typically lives behind the analog I/O card of a
mid-size PLC or DCS chassis. Common deployment slots include:
- Analog signal isolation in Allen-Bradley ControlLogix / CompactLogix analog input cards (1756-IF8, 1769-IF4) when the field loop must be galvanically separated from the rack ground.
- DC-DC power rail conditioning in Siemens SIMATIC ET200S / ET200SP stations, where sensor supply needs to be isolated from backplane noise.
- Thermocouple / RTD front-end isolation in Mitsubishi MELSEC-Q / iQ-R temperature input modules.
- 4–20 mA loop isolation for Omron SYSMAC CJ2 / CS1 analog I/O where long cable runs pick up ground loops in chemical or water-treatment plants.
- Servo amplifier signal conditioning in Yaskawa Σ-7 / Σ-V drive analog command circuits (torque reference, encoder supply).
- Spindle load / vibration sensor isolation in Fanuc CNC 0i-MD / 30i-B analog monitor channels.
- Analog input conditioning on Schneider Modicon M340 / M580 BMX AMO / AMI cards in process industries.
- Photocell / fiber-optic amplifier supply in KEYENCE vision or displacement-sensor cells that share a cabinet with noisy VFDs.
- Discrete-sensor power conditioning on Panasonic FP-X / FP7 PLC analog expansion units, particularly in packaging lines.
In short, this part is most often a field-loop isolation barrier
sitting between a sensor (RTD, thermocouple, pressure transmitter, flow meter,
load cell) and the analog input card of a PLC, DCS, or CNC controller. If you
can’t tell which function your IS2001M-353-40-SR4 performs, jump to
our AI Diagnostic Tool
and upload a nameplate photo — it will narrow the function and suggest a
drop-in replacement from our stocked catalog.
3. Integration & Wiring Notes
Wiring a 4–20 mA isolator or a 3 W DC-DC brick looks trivial on a
schematic, but the small details determine whether the loop is stable or
noisy. Use the checklist below when integrating an
IS2001M-353-40-SR4 into an existing Allen-Bradley, Siemens,
Mitsubishi, Omron, Fanuc, Schneider, Yaskawa, Panasonic, or KEYENCE cabinet.
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Confirm the polarity of the input terminals. Industrial isolators and DC-DC bricks are not field-reversible — reversing + and − on a SIP/DIP package usually destroys the input EMI filter on the first power-up.
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Respect the common-mode voltage rating. Most isolators in this class allow 50 VDC or 250 VAC continuous common-mode; a single phase-to-ground fault on the field side can exceed that and trip the input fuse.
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Provide adequate decoupling at the PLC end. Add a 100 nF X7R ceramic in parallel with a 10 µF electrolytic across the +24 V rail feeding the isolator, especially when the same rail also powers I/O relays or contactors.
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Use shielded twisted pair for the analog loop. Ground the shield at the cabinet end only; floating the shield at the sensor can introduce a 50/60 Hz hum that the isolator is supposed to reject.
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Keep signal wiring at least 10 cm away from VFD output cables in cabinets that mix Yaskawa Σ-V or Schneider Altivar drives with analog isolators — even with a 3 kV isolation rating, capacitive coupling on long parallel runs can degrade CMRR.
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Do not daisy-chain the 24 V supply through more than 3–4 isolators on one branch, otherwise the input-voltage drop at the end of the chain pushes the last isolator out of its under-voltage-lockout threshold.
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Label both ends of the analog pair with the loop tag (e.g.
FT-1013 + / FT-1013 −) so future maintenance engineers can trace the loop back to the P&ID without a megger test.
For signal-level math (engineering units to 4–20 mA scaling, hex-to-float
conversion of register values, Modbus CRC verification of the smart transmitter
output), try our free
PLC Analog Calculator,
PLC Hex to Float Converter,
and Modbus CRC Calculator
— they are the same tools our technicians use before signing off an analog
loop.
4. Installation & Commissioning Tips
The two failure modes we see most often on a swap of an IS2001M-353-40-SR4
are (a) a “mystery” 4–20 mA offset caused by a shared ground
loop, and (b) a DC-DC output that drops out under a step load from a nearby
contactor. The tips below address both.
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Document the input voltage before wiring the replacement. Use a true-RMS multimeter on the 24 VDC rail at the cabinet terminals, not at the power supply, because a long homerun can drop 1–2 V under load.
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Power-cycle the PLC analog card after installing the isolator. Some Siemens ET200SP and Allen-Bradley 1756-IF8 cards re-calibrate their input front-end on power-up; leaving the rack live can leave a 0.1–0.2% residual offset.
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Verify the loop current with a calibrated process meter at the field transmitter end, then at the PLC terminal end. The two values should agree within ±0.02 mA on a healthy isolator.
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Apply a 50% and 100% step test. Force the transmitter to 12 mA and 20 mA, and watch the engineering-unit reading in the HMI — linear and repeatable values confirm the isolator is not saturating.
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Check the chassis ground bond. A loose M6 ground stud between the isolator’s DIN-rail foot and the cabinet back-panel can lift the isolator’s “isolated ground” reference, defeating the 1.5 kV rating.
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Photograph the wiring before energizing. This is the cheapest insurance against a five-hour debug session next quarter — store the image in the asset folder for the relevant Allen-Bradley, Mitsubishi, or Schneider line.
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Log the isolator serial number in the maintenance record so the next RFQ can match lot/revision with the same vendor — this matters when a plant is mid-migration between two PLC generations.
If the loop still won’t settle after these checks, use the
PLC Error Code Database
to decode any diagnostic LED pattern on the analog card, or open a session
with the AI Diagnostic Tool
for a step-by-step triage.
5. Procurement, Warranty & Lead Time
Because IS2001M-353-40-SR4 is a composite / brand-ambiguous P/N,
procurement follows a slightly different flow than a clean Allen-Bradley or
Siemens catalog number. The four steps below are what we run on every RFQ.
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Send the nameplate photo and (if you have it) the original datasheet to Moritta@KOEED.COM. Without that we can only match the function, not the exact part.
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We confirm brand, function, and stock against our network of vetted industrial-automation channels and respond within 24 business hours with availability, lead time, and a per-piece or per-lot quote.
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Warranty: 90 days on every sourced unit, covering DOA (dead-on-arrival) and functional failure under normal operating conditions. The warranty travels with the serial number, so please keep the KOEED packing slip in the same folder as the maintenance record.
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Shipping: worldwide via DHL or FedEx, with a tracking number e-mailed the same day the parcel leaves our Shenzhen / Hong Kong consolidation warehouse. Transit time is typically 3–7 business days to most major industrial hubs.
The fastest way to get a quote is to attach the nameplate photo directly in
the e-mail. If you don’t have the datasheet, our sourcing team can usually
match the function against our
full multi-brand catalog
(Allen-Bradley, Siemens, Mitsubishi, Omron, Fanuc, Schneider, Yaskawa,
Panasonic, KEYENCE) and propose a drop-in equivalent. For a full BOM that
includes this part and related cables, fuses, or relay modules, open a
Create a Quote
ticket or e-mail Moritta@KOEED.COM with the line items.
Need this part or a full BOM?
Send your part list — ideally with a nameplate photo — to
Moritta@KOEED.COM and get availability + price within 24 hours.
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