Parkside 2.0 Ah 12V A3 battery X12v: Difference between revisions
From wikiluntti
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== Introduction == | == Introduction == | ||
== Battery Protection Circuit == | |||
Battery management system BMS; battery protection circuit. | Battery management system BMS; battery protection circuit. | ||
https://www.elektroda.com/qa,parkside-x20v-12v-bms-undervoltage-detect.html | |||
* the battery pack’s BMS monitors cell voltages and signals “undervoltage” to the tool over an auxiliary pin (often marked T/DS). | |||
* In the tool: the control PCB applies a pull‑up (e.g., ~5 V via ~10 kΩ) to that pin and measures its level. “Low” indicates OK; “float/high” indicates a fault → controller disables the PWM/drive and the tool stops | |||
* Read the T/DS pin exactly as the tools do: provide a 10 kΩ pull‑up to 5 V and interpret ≈mid‑rail as OK and ≈5 V as fault. | |||
=== 20 V Battery === | |||
See https://positron96.gitlab.io/projects/parkside-battery-protection/index.html for 20V battery. | See https://positron96.gitlab.io/projects/parkside-battery-protection/index.html for 20V battery. | ||
Revision as of 22:41, 7 November 2025
Introduction
Battery Protection Circuit
Battery management system BMS; battery protection circuit.
https://www.elektroda.com/qa,parkside-x20v-12v-bms-undervoltage-detect.html
- the battery pack’s BMS monitors cell voltages and signals “undervoltage” to the tool over an auxiliary pin (often marked T/DS).
- In the tool: the control PCB applies a pull‑up (e.g., ~5 V via ~10 kΩ) to that pin and measures its level. “Low” indicates OK; “float/high” indicates a fault → controller disables the PWM/drive and the tool stops
- Read the T/DS pin exactly as the tools do: provide a 10 kΩ pull‑up to 5 V and interpret ≈mid‑rail as OK and ≈5 V as fault.
20 V Battery
See https://positron96.gitlab.io/projects/parkside-battery-protection/index.html for 20V battery.
Connectors
- ID, tells the product which battery type is plugged it. Without the proper connection, the charger may overcharge, or ignore the battery
- T, Thermistor. The battery temperature; without it, the product may not accept the battery. See https://electronics.stackexchange.com/questions/10588/why-are-there-3-pins-on-some-batteries
(Reddit:) The tool supplies 5 V to the "T" pin, which, if everything is fine, the battery switches a 20 kOhm nominal NTC resistor to ground. Because the tool has a 10 kOhm resistor in series with its "T" pin the voltage drops to 3.3 V and the tool is able to detect that and start working. (https://www.reddit.com/r/batteries/comments/jwfwit/cordless_tool_battery_terminal_identification/)
See https://www.reddit.com/r/Parkside/comments/1jgixf2/parkside_batteries_wont_charge/
