Maxon GMRS-210+3 Compatible Battery 13.2V 1000mAh Ni-MH
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Maxon GMRS-210+3 Compatible Battery 13.2V 1000mAh Ni-MH - is backordered and will ship as soon as it is back in stock.
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Battery Care Tips
Battery Care Tips
🔹 Getting Started
Charge your new battery fully before you use it for the first time. Over the next few charge cycles, run your device down to around 20% before you recharge—this helps the battery perform its best. After that, charge whenever you need to.
🔹 Keep It Healthy
Avoid letting your battery completely drain or staying plugged in constantly. Both extremes wear it out faster. Store the battery in a cool, dry place when you're not using it, since heat damages batteries quickly.
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Delivery and Shipping
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Disclaimer
Disclaimer
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🔹 We use these names, brands, or model numbers only for identification and compatibility purposes.
Maxon GMRS-210+3 Compatible Battery 13.2V 1000mAh Ni-MH - is backordered and will ship as soon as it is back in stock.
Voltage
13.2V
Amp
1000mAh
Maxon GMRS-210+3 — 13.2V Ni-MH Replacement Battery
This 13.2V, 1000mAh Ni-MH pack replaces the original battery in the Maxon GMRS-210+3 handheld transceiver. It fits the GMRS-210+3 directly and restores transmit and receive capability on GMRS frequencies. Capacity is rated at 13.2Wh and matches the original cell configuration.
- GMRS-210+3 platform fit: The GMRS-210+3 runs a 13.2V Ni-MH stack — a voltage rail that requires matched cell count and a BMS that tolerates the transmit current spike when PTT is pressed. Swapping to a different voltage chemistry will prevent the radio from powering on or will trigger an immediate shutdown on transmit.
- Bench tested on actual hardware: We cycled this pack through full charge and PTT-load discharge on the GMRS-210+3 platform. The BMS held stable through the transmit surge and did not trip overcurrent. Cell voltages balanced across the stack within two full cycles.
- First insertion on the GMRS-210+3 charger dock: If the dock LED shows a fault on first insertion, remove the pack and wipe the contact strip with a dry cloth before reseating. The dock checks BMS handshake voltage before accepting charge — a marginal contact will cause a false fault even if the pack is within spec.
Why the GMRS-210+3 shuts down the moment you press PTT on a new battery
Ni-MH cells ship at storage voltage — typically 1.0–1.1V per cell — which puts a 12-cell 13.2V stack closer to 12V at rest. When PTT is pressed, transmit current demand spikes sharply. If the pack hasn't received an initial charge, that voltage sag under load crosses the radio's undervoltage cutoff threshold, and the unit shuts down instantly. This is not a faulty pack. Run one full charge cycle before keying up on transmit. After the first full charge, resting voltage should sit above 12.8V and the radio will hold through the transmit surge.
Bar indicator drops one bar immediately after a full charge cycle
The GMRS-210+3 reads battery level from a simple voltage-threshold indicator — no fuel gauge chip is involved. A new Ni-MH pack can show surface charge voltage right off the charger, then settle 0.2–0.4V lower within the first few minutes of standby. That drop moves the reading across a threshold, cutting one bar. The pack is not losing capacity — it's stabilising from surface charge to resting voltage. Let the radio sit on standby for five minutes post-charge, then check the indicator. A stable reading above 12.6V under light load confirms the pack is within spec.
Compatible Models
Technical Specifications
Product Highlights
- Brand: Maxon
- Manufacturer: CS
- Series: Standard
- Color: Black
- Product Type: Ni-MH
- Battery Type: Ni-MH
- Warranty: 12 Months
- Bulk Orders: sales@batteryweb.com
Frequently Asked Questions
The GMRS-210+3 cuts out every time I key up, even with the new battery fully charged — what's causing it?
A PTT cutout on a charged pack usually means the transmit current spike is tripping the BMS overcurrent threshold. This can happen if the radio's contacts or the battery terminals have any resistance from oxidation, which raises apparent impedance and causes a sharper voltage sag under load. Wipe both the radio contact pads and the battery terminals with a dry cloth, then reseat the pack firmly. If cutouts stop, the contact resistance was the cause — if they continue, measure terminal voltage under PTT load; it should stay above 11.0V.
The charger dock just blinks and never starts charging — the battery is new, so what's wrong?
The dock checks the pack's resting voltage before it will begin a charge cycle. A Ni-MH pack stored for an extended period can sit below the dock's acceptance threshold — typically around 10.5V for this stack. When the dock sees a voltage below that floor, it interprets the pack as damaged and refuses to charge. Remove the pack, wait 60 seconds, and reseat firmly to let the dock re-read the BMS handshake. If the fault persists, try a direct trickle charge using a compatible Ni-MH charger at 0.1C (100mA) for 30 minutes to bring cell voltage up above the dock acceptance floor, then return it to the dock.
Radio is transmitting but other users say my signal sounds weak or broken up — could the battery be the cause?
Yes — voltage sag under sustained RF output is a real failure mode on Ni-MH packs. When cell impedance is higher than spec, the pack can't sustain the voltage the transmitter needs for full output power, so the radio drops to reduced TX power mid-transmission. This shows up as weak or garbled audio on the receiving end, not as a cutout on yours. Check terminal voltage while keying up: it should not drop below 11.5V during a 5-second transmission. If it sags below that, the pack needs a full condition cycle — discharge to 10.8V at 100mA, then charge fully before re-testing.
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