Schneider Electric GV2P07 — Motor Circuit Breaker Selection Guide

By Abdullah Zahid
15 min read
Schneider Electric GV2P07 TeSys 3-pole thermal-magnetic motor circuit breaker with rotary handle for 1.6-2.5A 3-phase motor protection

Schneider Electric GV2P07 Motor Circuit Breaker, TeSys, 3-Pole, 1.6-2.5A, Thermal-Magnetic, Screw Clamp Terminals, Rotary Handle — Specifications, Lead Time & Selection Guide

When a controls engineer or panel builder is specifying motor protection for a small 3-phase motor in the 0.3–0.75 kW range, the Schneider Electric GV2P07 is one of the first SKUs that surfaces — and for good reason. This thermal-magnetic motor circuit breaker covers the 1.6–2.5A current range with a 100 kA breaking capacity at 400V, delivers both overload and short-circuit protection in a single manually operated device, and mounts on standard DIN rail without additional hardware. The decision comes down to one hard constraint: the motor nameplate current must fall within that 1.6–2.5A window. If it does, this is a straightforward, reliable choice. If it does not, a different variant applies — and this guide will tell you exactly which one.

If you have already confirmed the GV2P07 is the right part for your motor, check current pricing and availability at LeadTime.ca — we ship worldwide.

Who Should Buy the GV2P07 — and Who Should Not

The Schneider Electric GV2P07 is the correct choice for engineers and integrators specifying thermal-magnetic motor protection for small 3-phase motors where manual rotary handle operation is acceptable and cost efficiency is a priority. Confirm the following before ordering:

  • Motor full load amperage (FLA) on the nameplate falls within 1.6–2.5A — this is a fixed current range SKU and cannot be adjusted beyond those limits
  • Motor is a 3-phase AC squirrel-cage type — the GV2P07 is a 3-pole device and is not suitable for single-phase or DC motor applications
  • Supply voltage at the installation point does not exceed 690 VAC — the device is rated for 690V maximum; confirm local grid voltage and phase configuration before specifying
  • Screw clamp terminal connection is compatible with field wiring lugs — no push-in terminal variant is available on this model
  • Manual rotary handle operation is acceptable — the GV2 line does not include an electrical remote trip coil option
  • Application requires IEC 60947-2 compliant motor protection — the GV2P07 meets this standard at 100 kA breaking capacity at 400V

If the motor FLA exceeds 2.5A, the GV2P07 is the wrong part. Move to the GV2P10 (2.5–4A) or higher variants in the TeSys family. If the application requires electrical remote trip or integration with a motor soft-start, the GV3 or GV4 series is the correct path.

On this page:

What the GV2P07 Actually Does in a Motor Protection System

The Schneider Electric GV2P07 is a thermal-magnetic motor circuit breaker — a single device that handles both overload protection and short-circuit protection for 3-phase squirrel-cage motors. The thermal element uses a bimetal strip that deflects proportionally to sustained overcurrent; it will trip the device when current exceeds the dial-set threshold (1.6–2.5A adjustable) for a period long enough to indicate a genuine overload rather than normal motor inrush. The magnetic element operates on a separate principle: it responds instantaneously to fault currents at or above 13 times the rated current, catching hard short-circuit events before thermal protection could respond. At a 2.5A thermal setting, that magnetic threshold is approximately 21A — fast enough to clear a bolted fault without damaging motor windings or upstream wiring.

The GV2P07 is a primary motor protection device, not a contactor replacement and not a full motor starter. It does not switch the motor on and off under normal operating cycles — that function requires a separate contactor or manual motor starter downstream or in series. The GV2P07's role is to sit in the circuit and interrupt power when the motor is in trouble. The thermal setting is field-adjustable via a rotary dial on the face of the device — no plug replacement, no additional tools. The device covers motors up to 0.75 kW at 400V and operates on any AC supply from standard industrial voltages up to 690 VAC at 50 or 60 Hz.

One important operational reality: the GV2P07 is manually reset after a trip. There is no electrical remote reset or remote trip coil available on the GV2 product line. Someone physically needs to rotate the handle to restore the circuit. For most small motor applications — pumps, fans, compressors in accessible locations — this is acceptable and keeps the product cost down. For unmanned remote installations where a trip event must be logged and reset without a site visit, the GV3 or GV4 series with auxiliary contact blocks is the correct alternative.

Typical System Architecture for the GV2P07

The GV2P07 sits between the panel feeder or main disconnect and the motor contactor or directly ahead of the motor terminal box, providing upstream fault isolation for the motor branch circuit.

  • Main feeder breaker or fusible disconnect — upstream protection for the entire panel; does not replace the GV2P07's motor-specific protection role
  • GV2P07 (this device) — DIN rail mounted; provides thermal overload and magnetic short-circuit protection for one motor branch circuit
  • Motor contactor (optional, separate device) — handles normal ON/OFF switching of the motor; wired load-side of the GV2P07
  • Motor terminal box — load-side wiring from the GV2P07 or contactor connects to the motor's three-phase winding terminals
  • 3-phase squirrel-cage motor — end device being protected; motor nameplate FLA must fall within 1.6–2.5A for this SKU to apply

Where Engineers Deploy the GV2P07: Applications and Industries

The GV2P07 is most commonly found protecting small 3-phase motors in applications where continuous duty, limited physical space, and cost-sensitive panel design intersect. Submersible pump applications in agricultural water supply and municipal lift stations represent one of the most frequent use cases — the motor power stays low, the operating environment is wet and remote, and reliable thermal protection prevents burnout during low-flow or dry-run conditions. The 1.6–2.5A range maps directly to the 0.55–0.75 kW pump motors common in these systems.

In HVAC and refrigeration, small compressor and fan motors in commercial buildings routinely fall in the 0.3–0.75 kW range, making the GV2P07 a natural fit for distribution boards feeding rooftop units, fan coil units, and small condensing units. Food processing and packaging lines use it for small conveyor drive motors and metering pump motors where panels must be compact and cost per motor protection point matters. Water treatment facilities with distributed motor control cabinets rely on the GV2P07 as a cost-effective standard across dozens of identical small pump stations.

Application Typical Deployment
Agricultural submersible pump Single GV2P07 per pump motor, DIN rail in weatherproof enclosure, manual reset on site
Commercial HVAC fan motor GV2P07 in series with motor contactor in rooftop unit control panel, continuous duty
Food processing conveyor drive Multiple GV2P07 units per panel protecting individual small conveyor motors, field-adjusted to each motor FLA
Municipal water treatment lift station GV2P07 as primary motor protector in distributed panel cabinet, IEC 60947-2 compliance required
Compressed air system small compressor GV2P07 protecting 0.55–0.75 kW compressor motor, thermal setting matched to motor nameplate
OEM sub-assembly machine panel GV2P07 as standard motor protection component in production-volume panel builds under cost constraint

Purchase-Decision Specifications for the GV2P07

Specification Value
Rated Current Range 1.6–2.5 A (field-adjustable; fixed SKU for this range)
Pole Configuration 3-pole — 3-phase motor applications only
Protection Type Thermal-Magnetic (overload + short-circuit dual protection)
Magnetic Trip Threshold 13x rated current — approximately 21A at 2.5A setting
Breaking Capacity 100 kA @ 400V — meets IEC 60947-2 and EN 60947-2
Voltage Rating 690 VAC maximum — compatible with 380V, 415V, 500V systems
Frequency 50/60 Hz — AC only
Terminal Type Screw clamp — no push-in variant available on this model
Mounting DIN rail or panel-mount — rotary handle requires clear swing space
Environmental Rating IP20 — suitable for enclosed panel; not for direct outdoor exposure

Full technical specifications are available on the product page at LeadTime.ca.

GV2P07 vs. GV2P10, GV2P14, GV2P20, GV3: Which Current Range Do You Need?

The TeSys GV2 family covers a wide range of motor sizes through separate SKUs, each locked to a specific current window. Selecting the wrong SKU is the single most common ordering mistake with this product family — here is the decision table:

Model Rated Current Range Typical Motor Power @ 400V Remote Trip Option Best Fit Application
GV2P07 (this model) 1.6–2.5 A Up to 0.75 kW No Small pumps, HVAC fans, light conveyors
GV2P10 2.5–4 A 1.1 kW No Medium compressors, industrial fans
GV2P14 6–10 A 2.2 kW No Larger conveyors, pump stations
GV2P20 13–18 A 4 kW No Industrial machinery, larger compressors
GV3 / GV4 Series Extended range Above 4 kW Yes (separate coil) Mission-critical, soft-start integration, remote trip required

If the motor nameplate shows an FLA above 2.5A, the GV2P07 is not the correct device — check availability and confirm the right variant at LeadTime.ca before placing the order.

Expert Verdict: Is the GV2P07 Worth Specifying?

The Schneider Electric GV2P07 earns its place as a standard line item for controls engineers and OEM panel builders specifying protection for 3-phase motors in the 0.3–0.75 kW range. Its thermal-magnetic dual protection covers both the gradual overload failure mode and the instantaneous short-circuit fault in a single compact device, with a field-adjustable thermal setting that requires no part replacement — set the dial to motor nameplate FLA during commissioning and the device is calibrated. The 100 kA breaking capacity at 400V satisfies IEC 60947-2 compliance without needing to upsize to a more expensive industrial-grade device. For panel builders working on cost-sensitive builds — water pump panels, HVAC distribution boards, or OEM sub-assemblies with dozens of small motors — the GV2P07's combination of proven reliability within the Schneider TeSys installed base and straightforward sourcing through major Schneider channels makes it a low-risk specification.

The limits are real and non-negotiable. The GV2P07 is manual-only: no electrical remote trip, no auxiliary contact for trip status feedback, no soft-start interface. If the application is a remotely monitored pump station where a trip event needs to alarm a SCADA system, this device alone cannot do it — you need a GV3 or GV4 with an auxiliary contact block. If the motor FLA is 2.6A or above, the GV2P07 will cause nuisance trips during normal motor inrush and must be replaced with the GV2P10. Single-phase motor applications and variable-frequency-drive-fed motors also fall outside the correct application envelope. The IP20 enclosure rating means outdoor or washdown installations require a separate protective enclosure — the device itself is not rated for direct environmental exposure.

From a procurement standpoint, the GV2P07 is a well-stocked product through major Schneider authorized distributor channels with typical lead times in the 2–3 week range from order to ship in North American supply chains. For volume builds or projects with tight installation schedules, confirming stock on hand before locking a project timeline is standard practice — lead times can shift. Ordering through a specialist distributor rather than a generic retail channel adds one significant benefit: application verification before fulfillment. Confirming motor nameplate FLA against the 1.6–2.5A range before the order ships eliminates the majority of returns and rework delays on this product. View current pricing and availability for the GV2P07 at LeadTime.ca — we ship worldwide and can confirm stock before you commit to a project timeline.

For volume pricing, project quantities, or to verify lead time before committing to a build schedule, contact the LeadTime.ca team directly — we ship worldwide.

What Engineers Need to Know Before Ordering the GV2P07

Because the GV2P07 serves a specialized function in a narrow current band, there is no broad online community generating discussion around this specific SKU. What fills that gap is the accumulated field experience of engineers and integrators who have worked with the TeSys GV2 family — and the most valuable knowledge from that experience comes down to three consistent themes: current range mismatches cause the majority of commissioning problems, terminal compatibility needs to be verified before installation begins, and the absence of a remote trip option catches engineers off-guard when project requirements shift late in design.

The current range issue is subtle because engineers sometimes confuse motor power rating with motor current rating. A motor labeled 0.75 kW does not automatically draw 2.5A — actual FLA depends on supply voltage, motor efficiency, and power factor. At 380V versus 415V versus 500V, the same motor power produces different FLA figures. The only reliable source is the motor nameplate itself. Verifying FLA against the 1.6–2.5A window before the purchase order is placed is the single most impactful step in the entire selection process. If the FLA sits at 2.3A, the GV2P07 works. If it sits at 2.6A, the GV2P10 is required — and ordering the wrong one means a return, a reorder, and a delay to the panel build schedule.

Terminal compatibility is a second area where pre-order verification pays off. The GV2P07 uses screw clamp terminals with M6 or M8 lug connections. Field wiring lugs that do not match that specification result in connections that either cannot be tightened properly or are loose under load — both create overheating risks that undermine the device's protection function. Requesting a terminal connection diagram from the distributor before finalizing wire and lug purchases adds minimal time but eliminates a common field rework scenario. When community data on a specific product is sparse, the right place to get pre-order application verification is a specialist distributor who works with these devices daily — that conversation replaces what forum experience would otherwise provide.

Wiring and Installation Overview

The following points cover the key requirements for installing the GV2P07. For complete wiring diagrams and step-by-step procedures, refer to the Schneider Electric installation documentation supplied with the device or available from se.com.

  • The GV2P07 mounts on standard DIN rail or can be panel-mounted; verify that the rotary handle has a minimum of 50 mm clear swing space before fixing the device position in the enclosure
  • Screw clamp terminals accept M6 or M8 lug connections — confirm lug size matches field wiring gauge before installation; do not attempt to adapt push-in connectors to screw clamp terminals on this model
  • Line-side (input) terminals connect to the upstream feeder or main disconnect; load-side (output) terminals connect to the motor contactor or directly to the motor terminal box for standalone configurations
  • The thermal setting dial must be adjusted to match the motor nameplate FLA within the 1.6–2.5A range before first power-on; the factory default setting may not match the connected motor
  • After installation, verify that the rotary handle completes a full rotation from the OFF to the ON position without mechanical obstruction; restricted handle movement is a safety hazard that must be corrected before energizing the circuit

Wrong-Part Prevention Checklist

Before placing your order for the GV2P07, work through every item on this checklist. Each point addresses a documented failure mode in motor protection specification — skipping any one of them is the most common source of returns, rework, and commissioning delays on this product family.

  1. Verify motor is 3-phase squirrel-cage type (not single-phase, DC, or variable-frequency-drive-fed).
  2. Check motor nameplate rated current; confirm it falls within 1.6–2.5A range — if above 2.5A, order GV2P10 or higher.
  3. Confirm supply voltage does not exceed 690 VAC (European/Asian 380V, 415V, 500V OK; verify local grid voltage if above 500V).
  4. Verify screw clamp terminals match field wiring gauge and connector size (typically M6 or M8 lugs; no push-in adapters on this model).
  5. Confirm DIN rail or panel mount space is available for rotary handle full rotation (manual operation requires clear swing space).
  6. Check that manual operation is acceptable for the application (no remote tripping via relay coil on this model).
  7. Verify that no integrated electronic overload relay is required (GV2P07 is purely thermal-magnetic; no displays or communications).

If any item on this checklist raises a concern about fit, contact the LeadTime.ca team before ordering — confirming application fit before fulfillment is faster than a return and reorder cycle.

Frequently Asked Questions

If my motor nameplate shows 2.5A exactly, can the GV2P07 handle it or should I move to the GV2P10?

The GV2P07 is rated for a 1.6–2.5A range, so a 2.5A motor FLA sits at the top of the usable window. The device will work at that setting, but there is no headroom — if motor current rises slightly under heavy load conditions or if supply voltage dips, nuisance trips become more likely. For motors with a nameplate FLA at or very close to 2.5A, specifying the GV2P10 (2.5–4A) provides a safer margin and eliminates commissioning uncertainty.

Does the GV2P07 provide any form of trip signal or auxiliary contact output I can wire to a PLC or alarm circuit?

No. The GV2P07 is a purely manual thermal-magnetic device with no auxiliary contact, no trip coil, and no communications interface. It does not generate an electrical signal when it trips. If your application requires a trip status signal to a PLC, SCADA system, or alarm relay, you need to specify a GV3 or GV4 series device with an auxiliary contact block, which is a separate accessory not available on the GV2 manual line.

Can the GV2P07 be used on the output side of a variable frequency drive?

The GV2P07 is not recommended for VFD output protection. VFDs generate non-sinusoidal output waveforms and current profiles that can cause erratic behavior in thermal-magnetic protection devices calibrated for standard AC motor characteristics. VFD applications typically require a separate motor overtemperature protection strategy — either a thermistor in the motor winding monitored by the drive, or a dedicated electronic motor protection relay. Consult your VFD manufacturer's documentation for the correct protection topology.

What is the realistic lead time for the GV2P07 through North American channels, and what should I plan for in a project schedule?

Authorized distributor channels in North America have reported typical lead times of 2–3 weeks from order to ship for the GV2P07. Stock levels can vary by distributor and by season, so for project-critical timelines, confirming in-stock status before locking a delivery date is the correct practice. If your installation date is firm, ordering a minimum of 2–3 weeks ahead of required-on-site date is a reasonable buffer. LeadTime.ca can confirm current stock status before you commit — contact us or check the product page for live availability.

Is the GV2P07 certified for the Canadian market, and does it meet CSA requirements?

The brief confirms the GV2P07 meets IEC 60947-2 and EN 60947-2 standards. CSA certification status for the Canadian market specifically is a known data gap — confirming whether CSA approval applies in your jurisdiction before finalizing the specification is recommended, particularly for projects subject to Canadian electrical code authority having jurisdiction (AHJ) review. Contact LeadTime.ca or Schneider Electric directly to confirm current certification status for your region.

How does the magnetic trip threshold behave across the thermal setting range — does it change when I adjust the dial?

The magnetic trip threshold is fixed at 13 times the rated current for the device. At the maximum thermal setting of 2.5A, the magnetic element triggers at approximately 21A. At the minimum thermal setting of 1.6A, the threshold scales accordingly to approximately 21A at the lower end. The magnetic element provides instantaneous protection against hard fault currents regardless of the thermal dial position — the two protection mechanisms operate independently, which is one of the key advantages of the thermal-magnetic design in IEC 60947-2 compliant motor circuit breakers.

Why Order Through LeadTime.ca

  • LeadTime.ca ships worldwide — whether your project is in North America, Europe, Asia-Pacific, or elsewhere, we can fulfill and confirm delivery logistics before you commit to an order
  • Specialist distributor advantage: we verify application fit — motor nameplate current, terminal compatibility, and variant selection — before fulfillment, not after a return
  • Live pricing and stock status on the product page; contact the team for volume pricing on project quantities of 10 or more units
  • Hard-to-source industrial components are a core focus — if a product shows as unavailable through standard channels, contact us before assuming it is out of stock globally
  • Post-sale support for commissioning questions, nuisance trip troubleshooting, and alternative variant identification if application requirements change

At-a-Glance Summary

  • Current range: 1.6–2.5A — fixed SKU, field-adjustable within range via rotary dial, no part replacement required
  • Breaking capacity: 100 kA at 400V — meets IEC 60947-2 and EN 60947-2 industrial motor starter standard
  • Magnetic trip threshold: 13 times rated current — approximately 21A at the 2.5A thermal setting
  • Maximum supply voltage: 690 VAC — compatible with 380V, 415V, and 500V systems; verify grid voltage before specifying above 500V
  • Terminal type: screw clamp only — M6 or M8 lug connections; no push-in terminal variant exists on this model
  • Motor power coverage: up to 0.75 kW at 400V — 3-phase squirrel-cage motors only
  • Operation: manual rotary handle — no electrical remote trip coil, no auxiliary contact output, no PLC interface
  • Environmental rating: IP20 — enclosed panel installation required; not rated for direct outdoor exposure
  • Typical lead time: 2–3 weeks from order to ship through North American authorized distributor channels
  • Next variant up: GV2P10 (2.5–4A) for motors with FLA above 2.5A; GV3/GV4 series for applications requiring remote trip or soft-start integration

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