SWGDRUG Infrared Spectral Library:
SWGDRUG has compiled an infrared spectral library that is available for download from this website. The Drug Enforcement Administration's Special Testing and Research Laboratory generated the following library using structurally confirmed reference materials.

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The SWGDRUG library is provided in the following formats. Click on the appropriate link below to download the compressed file.

Hp Mu06 Notebook Battery Pinout Configuration 💎

Parallel to Pin 6, providing the second terminal for the 10.8V/11.1V positive rail. How to Safely Test and Measure the MU06 Battery

| Pin Number | Function | Description & Notes | | :--------- | :--------------------------- | :-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | | 1 | | Main battery negative terminal; connects directly to the laptop's ground. | | 2 | Battery Negative (B-) | Often multiple pins are used for the main power path to handle higher current loads safely and provide redundancy. | | 3 | System Management Bus Clock (SMBCLK) | This pin carries the clock signal for the SMBus, synchronizing data transmission between the battery and the laptop. | | 4 | System Management Bus Data (SMBDAT) | This pin carries the actual data, such as voltage, current, temperature, and remaining capacity. | | 5 | Battery Presence | This pin is used by the laptop to detect if a battery is physically installed. It is often pulled to ground within the battery pack. | | 6 | Temperature (Thermistor) | Connected to a negative temperature coefficient (NTC) thermistor within the battery pack. Its resistance decreases as temperature rises, allowing the laptop to monitor battery temperature and prevent overheating. Often 10kOhm at 25°C. | | 7 | Battery Positive (B+) | Main battery positive terminal. | | 8 | Battery Positive (B+) | Multiple pins for the main power path. | | 9 | Cell Tap (Optional) | In some smart batteries, an extra pin connects to the junction between two cells to allow the battery management system (BMS) to monitor the midpoint voltage of the series cell string for cell balancing. |

Note: On some variations, the numbering may be reversed depending on the orientation of the connector (left-to-right vs. right-to-left). Always use a multimeter to verify Ground (which will show 0 ohms to the battery's negative terminal) and Positive pins before applying power. Technical Specifications Lithium-ion (Li-ion) Hp Mu06 Notebook Battery Pinout Configuration

If you place a multimeter across Pin 1 (+) and Pin 7 (-), you might read 0V or a very low "ghost" voltage, even if the battery is brand new. To wake the battery up for bench testing, you generally need to bridge the System Present pin (Pin 5) directly to Ground (Pin 6 or 7) using a low-value resistor (typically 10k ohms) or a direct jumper wire. Connecting to Microcontrollers

The is a ubiquitous 6-cell Lithium-Ion power pack used in a wide range of HP G-series, Pavilion, and Compaq Presario laptops. Understanding its pinout configuration is essential for advanced troubleshooting, external charging, or battery "resetting" using professional tools like the NLBA1 Laptop Battery Analyzer . Pinout Configuration Table Parallel to Pin 6, providing the second terminal for the 10

10.8V or 11.1V (Depending on the specific cells used). Fully Charged Voltage: ~12.6V. Capacity: Usually 4400 mAh to 5200 mAh (47 Wh to 57 Wh).

The SMBus pins (Clock and Data) will typically show a logic-level voltage (often 3.3V ) when the battery is active or connected to a charger. | | 3 | System Management Bus Clock

Understanding the HP MU06 Notebook Battery Pinout Configuration

The HP MU06 notebook battery pinout is simple once you isolate the communication and detection pins. By grounding the , you unlock the main power rails, allowing you to breathe new life into older cells for DIY power banks, robotics projects, or custom emergency power setups. Always practice strict battery safety protocols when working with exposed lithium-ion hardware.

Based on this general smart battery architecture, a standard can be mapped as follows, using the battery connector's own orientation (looking at its pins):

For advanced electronics projects, you can read the internal health parameters of the MU06 using a micro-controller like an Arduino, a Raspberry Pi, or a specialized USB-to-I2C adapter (such as an EV2300 or EV2400).