Minolta 8-308 Replacement Battery 6V 4200mAh Ni-MH
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Minolta 8-308 Replacement Battery 6V 4200mAh 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.
Delivery and Shipping
Delivery and Shipping
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Disclaimer
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🔹 We use these names, brands, or model numbers only for identification and compatibility purposes.
Minolta 8-308 Replacement Battery 6V 4200mAh Ni-MH - is backordered and will ship as soon as it is back in stock.
Voltage
6V
Amp
4200mAh
Minolta 8-308 / 8-406 Series — 6V Ni-MH 4200mAh Replacement Battery
This is a 6V Ni-MH battery rated at 4200mAh (25.2Wh), built to replace the original cell in the Minolta 8-308, 8-308E, 8-406, 8-406E, and over 47 additional Minolta camera models. It matches the voltage rail, physical dimensions (88.95 x 47.55 x 36.50mm), and connector orientation of the factory battery. When the original cell can no longer hold a usable charge, this restores full camera operation.
- 8-308 and 8-406 platform compatibility: Both series run the same 6V power architecture with identical connector pinout and physical housing. A single cell design covers the full range — the BMS in each body reads voltage and temperature data the same way across all variants in this group.
- Bench tested on actual hardware: We cycled this cell through a full charge and discharge sequence, confirming the BMS handshake and verifying the protection circuit trips correctly on undervoltage. Capacity output tracked consistently against the rated 4200mAh across multiple cycles.
- First-cycle BMS initialisation: Run the first charge through the OEM charger or directly in the camera body before any heavy shooting. Some Minolta bodies from this era require one full in-body charge cycle before the battery-remaining indicator maps correctly to the new cell's discharge curve.
Battery percentage jumping erratically on the Minolta 8-308 display
The fuel gauge in these Minolta bodies estimates remaining charge by tracking voltage thresholds calibrated to the original cell's discharge curve. A new Ni-MH cell — even a correctly rated one — discharges at a slightly different curve until it's been conditioned. The camera's indicator reads voltage snapshots and maps them to percentage bands, so a fresh cell can trigger jumps of 20–30% between shots as it settles. After two or three full charge-discharge cycles, the curve stabilises and the display tracks consistently. If the gauge is still erratic after three cycles, check that the terminal voltage at rest sits above 5.8V before charging.
Flash not fully recycling between shots on a new cell
Flash capacitor recharge draws a sharp current spike immediately after each shot. If the cell's internal resistance is elevated — common in a brand-new Ni-MH before conditioning — the voltage sags briefly under that load, slowing capacitor refill and extending recycle time. This is not a fault in the battery; it resolves after the first few charge cycles as internal resistance drops. If recycle lag persists beyond three cycles, measure resting terminal voltage directly at the battery contacts — a healthy cell at full charge should read at or above 6.0V.
Compatible Models
Technical Specifications
Product Highlights
- Brand: Minolta
- 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
My Minolta 8-308 is showing a dead battery icon straight after fitting this new cell — is the battery flat?
Almost certainly not. Minolta bodies in this series perform a voltage-threshold check on first contact with a new cell, and if the cell hasn't been through a full charge cycle in-body, the camera can misread the resting voltage and throw a low-battery flag. Place the battery in the camera body, connect the OEM charger, and run one complete charge cycle before powering on for shooting. After that cycle, the indicator should clear and display correctly.
Shot count is noticeably lower than I expected from a 4200mAh cell — what's pulling the extra draw?
The rated capacity reflects a standard discharge load, but flash recharge, continuous autofocus, optical stabilisation, and the LCD together push real-world draw well above that baseline. Cold ambient temperatures also suppress usable capacity in Ni-MH cells — a 10°C drop can reduce effective output by 15–20% before the cell is even depleted. Keep the camera body at ambient temperature between shots in cold conditions, and store the battery above 0°C. For a rough check, measure terminal voltage mid-session — above 5.5V under load means the cell still has capacity; below that, it's approaching the BMS cutoff threshold.
The camera body feels warm during extended video recording and the battery drains faster than during still shooting — is something wrong?
Nothing is wrong — this is expected behaviour. Video mode sustains continuous draw from the sensor, image processor, stabilisation system, and LCD simultaneously, which is significantly higher than the intermittent draw of still shooting. That combined load generates heat in both the camera body and the battery cell. The Ni-MH chemistry handles sustained draw, but internal resistance rises as the cell warms, which accelerates voltage drop toward the BMS cutoff. For long video sessions, allow the body to cool between takes and avoid starting a recording sequence when resting terminal voltage reads below 5.8V.
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