8682l Ic Datasheet May 2026

If you're troubleshooting power issues on laptop motherboards (like the Apple MacBook Pro A1278), you’ve likely encountered the OZ8682LN, often simply marked as 8682L. This high-efficiency controller is a staple in mobile power management. Key Technical Specifications Manufacturer: O2Micro.

Function: SMBus-controlled battery charger / DC-DC converter driver. Package Type: QFN-16 (16-pin Quad Flat No-leads).

Application: Primarily used in laptop battery charging circuits and system power management.

Compatibility: Known for use in Apple MacBook Pro series motherboards (e.g., part number 820-2936-B). Common Use Cases & Maintenance

Repair: Often replaced when a laptop fails to charge or doesn't recognize the battery.

Schematics: When looking for a datasheet, search for the full part number OZ8682LN on platforms like Alldatasheet or Electronics Datasheets. Quick Tips for Technicians

Check the Marking: The IC is physically marked as "8682L" on the top of the chip.

Heat Management: Ensure proper thermal pad contact when soldering the QFN-16 package to prevent overheating during operation.

Tell me what you're working on, and I can help you find those specific details.

The 8682L is a high-performance, programmable constant current LED driver controller typically found in modern lighting systems and backlight units. Because it is a specialized component, understanding its pinout and electrical characteristics is vital for repair or circuit design. 8682L IC Overview

The 8682L operates as a Pulse Width Modulation (PWM) controller. It is designed to drive external MOSFETs to regulate current through LED strings. It is widely used in LED TVs and commercial lighting due to its high efficiency and robust protection features. Key Features Wide Input Voltage: Operates across various DC rails. PWM Dimming: Supports precise brightness control.

Over-Voltage Protection (OVP): Prevents damage during surges. Short-Circuit Protection: Safeguards the IC and LEDs. High Efficiency: Low power dissipation during operation. Pin Configuration and Descriptions

The 8682L usually comes in a small-outline package (SOP-8 or similar). While you should always verify with the manufacturer’s markings, the standard pin functions are as follows: Pin Number Description VIN Main power supply input. GATE Output to the gate of the external MOSFET. GND System ground. CS Current sense input for monitoring LED current. OVP Over-voltage protection threshold input. EN/DIM Enable and PWM dimming control pin. COMP Compensation pin for stability loops. VCC Internal regulator output/bypass capacitor. Technical Specifications

To ensure the 8682L operates safely within a circuit, adhere to these typical electrical limits: Supply Voltage (VCC): 10V to 30V (varies by sub-model).

Operating Frequency: Generally fixed or set via external resistor. Dimming Range: 0% to 100% via PWM signal. Operating Temperature: -40°C to +85°C. Typical Application Circuit

In a standard LED driver circuit, the 8682L acts as the "brain." Power Up: The IC receives voltage at the VIN pin.

Switching: The GATE pin sends a high-frequency signal to an external N-channel MOSFET.

Regulation: The CS (Current Sense) pin monitors the voltage across a resistor in series with the LEDs to maintain constant brightness.

Feedback: The OVP pin monitors the output rail; if the LED string breaks, the IC shuts down to prevent a voltage spike. Troubleshooting Tips

If you are repairing a board containing the 8682L, check the following:

No Light: Check the EN (Enable) pin for a high signal (usually >2V) and ensure VIN is present.

Flickering: Inspect the COMP pin capacitor for leakage or the CS resistor for value drift.

Overheating: Ensure the external MOSFET isn't shorted and the VCC capacitor is healthy.

💡 Quick Tip: If you cannot find the 8682L specifically, look for "OB8682" or similar prefixes, as different manufacturers use slightly different naming conventions for this specific controller architecture. If you'd like, I can help you: Find equivalent replacement parts (cross-references) Locate a full PDF download link for a specific manufacturer Calculate resistor values for a specific output current

Report: 8682L IC Datasheet

Introduction

The 8682L is a highly integrated circuit (IC) designed for various applications. This report provides an in-depth analysis of the 8682L IC datasheet, covering its features, specifications, and potential applications.

Overview of the 8682L IC

The 8682L IC is a low-power, high-performance device manufactured by [Manufacturer Name]. It is a [briefly mention the type of IC, e.g., voltage regulator, microcontroller, etc.]. The IC is designed to operate at a low voltage, making it suitable for battery-powered devices.

Key Features

The 8682L IC offers several key features that make it an attractive option for various applications:

Low Power Consumption: The IC has a low quiescent current, making it suitable for battery-powered devices that require long battery life.
High Accuracy: The IC provides high accuracy and stability, ensuring reliable performance in various applications.
[Number of] Channels: The IC has [number of] channels, allowing it to handle multiple tasks simultaneously.
Wide Operating Voltage Range: The IC can operate within a wide voltage range, making it suitable for various applications.

Specifications

The following are the key specifications of the 8682L IC:

Operating Voltage: [Voltage Range, e.g., 2.7V to 5.5V]
Current Consumption: [Current Consumption, e.g., 10μA (typical)]
Channels: [Number of Channels, e.g., 2]
Output Type: [Output Type, e.g., Analog, Digital]
Package: [Package Type, e.g., SOP-8, QFN-16]

Pin Configuration

The 8682L IC has [number of] pins, which are configured as follows:

| Pin Number | Pin Name | Description | | --- | --- | --- | | [Pin Number] | [Pin Name] | [Description] |

Electrical Characteristics

The 8682L IC has the following electrical characteristics:

Voltage Regulation: [Voltage Regulation, e.g., ±2%]
Line Regulation: [Line Regulation, e.g., ±1%]
Load Regulation: [Load Regulation, e.g., ±2%]

Applications

The 8682L IC is suitable for various applications, including:

Portable Devices: The IC's low power consumption and wide operating voltage range make it suitable for portable devices, such as smartphones, tablets, and laptops.
Industrial Control Systems: The IC's high accuracy and stability make it suitable for industrial control systems, such as process control, motor control, and power management.
Medical Devices: The IC's low power consumption and high accuracy make it suitable for medical devices, such as patient monitoring systems, medical imaging devices, and diagnostic equipment.

Conclusion

In conclusion, the 8682L IC is a highly integrated circuit that offers low power consumption, high accuracy, and a wide operating voltage range. Its features and specifications make it suitable for various applications, including portable devices, industrial control systems, and medical devices. This report provides a comprehensive overview of the 8682L IC datasheet, which can be used as a reference for designers and engineers.

Recommendations

Based on the analysis of the 8682L IC datasheet, we recommend:

Using the IC in low-power applications: The IC's low power consumption makes it suitable for battery-powered devices that require long battery life.
Evaluating the IC's performance in various operating conditions: The IC's performance should be evaluated in various operating conditions, such as temperature, voltage, and load, to ensure reliable performance.

Limitations

The analysis of the 8682L IC datasheet has the following limitations:

Limited information: The datasheet may not provide comprehensive information about the IC's performance in various applications.
Lack of experimental data: The analysis is based on the datasheet and does not include experimental data, which may be necessary to fully evaluate the IC's performance.

Future Work

Future work may include:

Experimental evaluation of the IC's performance: Experimental evaluation of the IC's performance in various applications and operating conditions.
Comparison with other similar ICs: Comparison of the 8682L IC with other similar ICs to evaluate its performance and features.

References

[Manufacturer Name]. ( [Year] ). 8682L IC Datasheet. [Document Number]

The 8682L (full part number OZ8682LN) is a high-performance SMBus Level 2 Battery Charger IC manufactured by O2Micro. It is most commonly found in laptop power management circuits, specifically within Apple MacBook Pro models (e.g., A1278 and A1229) and other portable electronics. Core Specifications & Function

Primary Function: Acts as a battery charge controller that communicates via the SMBus protocol to manage multi-cell battery charging.

Hybrid Power Boost: Features specialized circuitry for "Hybrid Power Boost," allowing the system to draw power from both the AC adapter and the battery simultaneously during peak loads.

Package Type: Typically available in a QFN16 (16-pin Quad Flat No-lead) or 28-pin package depending on the specific sub-variant and board implementation.

Target Application: Highly integrated for Laptop Motherboards, focusing on power regulation and voltage control tasks. Technical Breakdown

The datasheet for the 8682L defines several critical operational parameters:

Level 2 Charging: It follows the Smart Battery System (SBS) specifications for Level 2 chargers, meaning it receives charging voltage and current limits from the battery itself.

Voltage Management: Regulates the input from the power adapter to ensure safe current delivery to the internal lithium-ion cells.

Thermal Protection: Like most O2Micro controllers, it likely includes internal thermal shutdown (TSD) and over-voltage protection to prevent board damage during faults. Typical Repair Context

If you are searching for this IC datasheet, it is likely for board-level repair:

MacBook Repairs: Frequently replaced on MacBook Pro logic boards (like the 820-2879-B) when the device fails to charge or does not recognize the battery.

Replacement Parts: You can find replacement chips from electronic component retailers like Nexsys Techno or Motherboard.lk. Common Identification Marking Marking on Chip: Usually labeled as 8682L or OZ8682LN.

Part: OZ8682LN • QFN16 • datasheet, pdf, info ... - Elparts

Integrated circuits > DC/DC converters and SMPS drivers. battery charger, marking 8682L. O2 Micro. QFN16.

Part: OZ8682LN • QFN16 • datasheet, pdf, info ... - Elparts

Integrated circuits > DC/DC converters and SMPS drivers. battery charger, marking 8682L. O2 Micro. QFN16. OZ 8682L Laptop IC, 28 Pin - IndiaMART

The 8682L (also known as the OZ8682LN) is a high-performance SMBus Battery Charger Controller manufactured by O2Micro. It is primarily designed for portable devices like laptops, tablets, and medical equipment that require precise power management.

Below is a structured technical report based on the product's core specifications and typical application use cases.

Technical Report: OZ8682LN (8682L) Battery Charger Controller 1. Product Overview

The OZ8682LN is an integrated circuit (IC) housed in a compact QFN-16 package. It serves as a synchronous buck battery charger controller. It is specifically engineered to manage the charging of Lithium-ion (Li-ion) and Lithium-polymer batteries using a high-efficiency switching regulator architecture. 2. Key Specifications Manufacturer: O2Micro Package Type: QFN-16 (4x4 mm)

Interface: SMBus (System Management Bus) for digital communication and control.

Charging Chemistry: Optimized for multi-cell Li-ion/Li-polymer configurations. Architecture: Synchronous buck (step-down) converter. 3. Functional Features

Precision Control: Provides highly accurate voltage and current regulation, essential for maximizing battery life and ensuring safety.

High Efficiency: The synchronous rectification minimizes power loss, reducing heat generation during high-current charging cycles.

Dynamic Power Management: It can automatically adjust the charging current based on the total power draw of the system, preventing the AC adapter from overloading. Safety Protections: Over-voltage and over-current protection.

Battery thermistor monitoring to prevent charging in extreme temperature conditions.

Reverse current protection to prevent battery discharge into the adapter. 4. Application and Design Integration

In real-world applications, such as smart home hubs, the OZ8682L is valued for its low-latency communication and ability to handle complex power requirements.

Component Placement: For stable performance, designers must strictly follow datasheet recommendations for capacitor placement near the input and output pins to minimize noise.

IoT Ready: Its ability to interface with other system components via SMBus makes it suitable for IoT devices that require remote battery status monitoring. 5. Summary for Engineers

The 8682L is a reliable choice for engineers seeking a compact, SMBus-controlled charging solution. It balances high integration with robust safety features, though it requires careful PCB layout (specifically regarding thermal dissipation and signal integrity for the SMBus lines) to achieve peak performance.

The fluorescent hum of the server room was the only thing keeping Elias sane at 3:00 AM. He was a firmware engineer for a company that specialized in "legacy support"—a polite industry term for scavenging the technological graveyards of the 1980s.

On his workbench sat a decommissioned guidance computer from a Cold War-era satellite. It was dead, a heavy brick of oxidized metal and beige PCBs. His job was to reverse-engineer its bootstrap sequence. But he was stuck.

He pointed his microscope at a tiny, black, eight-legged chip near the power regulator. The markings were faded, scratched away by decades of thermal cycling. All that remained was a faint laser-etch: 8682L.

Elias sighed, rubbed his eyes, and turned to his keyboard. He typed the string into the specialized component search engine: 8682L ic datasheet.

The search bar spun. No results found.

He tried variations. 8682L controller, 8682L military spec. Nothing. It was a ghost. A silicon phantom.

Frustrated, he dug into the deep web archives—the messy, unindexed forums where old ham radio operators and retired defense contractors traded secrets like baseball cards. After an hour of digging through broken links and password-protected FTP servers, he found a single text file.

It wasn't a proper PDF. It was a scanned image of a microfiche, poorly converted. The title block read: MIL-STD-8682L: Logic Controller Interface.

Elias downloaded the file, his heart beating slightly faster. This was it. He opened the datasheet.

It was ugly. The diagrams were hand-drawn schematics from 1974. The text was grainy. But as he scrolled, his engineering brain began to parse the logic tables.

Pin 1: VCC (+5V)
Pin 2: Ground
Pin 3: Clock In
Pin 4: Enable

Standard stuff. But then he reached the section labeled "FUNCTIONAL DESCRIPTION."

Usually, a datasheet was dry. Clinical. It told you voltage tolerances and timing diagrams. But the description for the 8682L was weird. It didn't describe a logic gate or a memory register.

It described a lock.

The 8682L is designed as a sequential failsafe. The output pin (8) remains low until a specific analog signature is detected on the input array.

Elias frowned. "Analog signature?" He looked at the board. Pin 8 was connected to the reset line of the main CPU. If this chip didn't output high, the computer wouldn't wake up. It was a giant, electronic padlock. 8682l ic datasheet

He read further down the sheet. There was a "Truth Table," but it made no mathematical sense. The inputs required to trigger the output weren't binary 1s or 0s. They were rhythmic patterns.

Input Sequence: 3ms High, 7ms Low, 2ms High...

It wasn't data. It was a song.

Elias sat back. The datasheet wasn't just a manual; it was a deterrent. It was designed to look like a simple logic gate to anyone glancing at it, but the electrical characteristics revealed a chaotic oscillator hidden inside. It was a security chip, likely meant to prevent Soviet reverse-engineering during the Cold War. Without the specific "key" pulse train, the chip would ground the system forever.

He looked at the timing diagram again. It was a complex, jittery wave. He realized he would have to program his signal generator to mimic that exact, imperfect waveform—the rise and fall times, the specific millisecond jitter.

For three hours, he coded the waveform based on the grainy image in the datasheet. It felt like learning a dead language.

At 6:00 AM, with the sun beginning to bleed through the blinds, he connected his function generator to Pin 4 of the 8682L. He double-checked the voltage against the Absolute Maximum Ratings section of the sheet. He didn't want to fry the only known sample.

He pressed 'Enter' on his laptop.

The signal generator hummed. On the oscilloscope, a yellow line danced—a chaotic, jagged spike that matched the hand-drawn diagram on his second monitor.

Elias watched Pin 8.

For a second, nothing happened. The line on the scope stayed flat at 0V.

Then, with a click that sounded impossibly loud in the quiet room, the line jumped to 4.8V.

On the workbench, the beige box shuddered. A cooling fan spun up, wheezing dust into the air. A single red LED on the front panel blinked on. Then a green one.

Elias exhaled a breath he didn't know he was holding. The datasheet had lied about what the chip was called, and it had obfuscated its purpose, but the geometry of the electrons didn't lie.

He picked up his coffee, cold now, and toasted the screen. "Good morning, 8682L."

The ghost in the machine was awake.

(also referred to as ) is a specialized power management integrated circuit (IC) primarily utilized as a battery charger controller

in laptop motherboards and portable electronics. Manufactured by O2Micro International

, it is a critical component for managing the charging cycle of lithium-ion batteries. WIT Computers Core Technical Profile

The datasheet for the 8682L outlines a device designed for high-efficiency power regulation within a compact footprint. Package Type: Typically housed in a (Quad Flat No-lead) package, measuring approximately

mm, which is ideal for the space-constrained environments of modern laptops. Primary Function: It acts as a DC/DC converter

and SMPS (Switch Mode Power Supply) driver specifically optimized for battery charging. Key Responsibilities: Voltage Regulation:

Ensures stable power delivery to the battery and system components. Safety Interlocks:

Manages logic for safety protocols to prevent overcharging or thermal issues. Noise Immunity:

Includes features to resist electrical noise, maintaining precision in industrial or high-interference environments. AliExpress Applications and Industry Use While most commonly found in laptop motherboards

(specifically brands like Apple and Acer), the chip's robustness makes it suitable for various embedded systems. WIT Computers

Serves as a vital link in the power sequence, managing how the device switches between AC adapter power and battery power. Industrial Controllers:

Used in complex automation and industrial devices due to its high reliability and ability to handle power fluctuations.

Developers may integrate the OZ8682L into custom IoT hardware that requires sophisticated battery management. AliExpress Finding Documentation

Detailed electrical characteristics, such as pinout configurations and thermal performance data, are found in the official O2Micro datasheet

. When searching for replacements, ensure you match the exact marking "8682L" to avoid incompatibility with other similarly numbered chips like the (an operational amplifier) or (a magnitude comparator). AliExpress typical application circuit to help with a repair or a new design?

integrated circuit (IC) is primarily recognized as the , a high-efficiency laptop battery charger IC . It is commonly used in portable electronics, such as the Apple MacBook Pro (A1278) Key Specifications The 8682L typically comes in a

package and is designed to manage the charging cycle of lithium-ion or lithium-polymer battery packs. While detailed technical data is often restricted to manufacturer portals or specific repair communities, general functional details include: Application: Battery charging and management. Package Type: QFN-16 (Quad Flat No-lead, 16 pins). Core Functions:

Constant current/constant voltage (CC/CV) charging, safety monitoring, and power path management. Draft Social Media / Blog Post

If you are looking to share information about this IC on a platform like LinkedIn, a technical blog, or a forum, here is a professional draft:

Headline: Troubleshooting Power Issues? Meet the 8682L Battery Charger IC

If you've ever cracked open a laptop or high-end portable device for a power-related repair, you might have encountered the 8682L (OZ8682LN) . 💻🔋 As a specialized battery charger controller

, this tiny QFN16 chip handles the heavy lifting of managing juice to the battery and the rest of the system. It’s a common sight in popular hardware like the MacBook Pro A1278 series Why it matters: Charging Precision: Ensures safe and efficient charging cycles. Compact Design:

The QFN16 footprint makes it ideal for space-constrained PCBs. Reliability: Trusted by major manufacturers for power path management. Pro-Tip for Techs:

If a device isn't recognizing the battery or won't boot from AC power, the is often a prime suspect for failure.

Looking for the full datasheet? You can often find it through specialized electronic component distributors

#ElectronicsEngineering #PCBDesign #LaptopRepair #Microchip #Engineering replacement part for a specific device? 8682l-charging-ic-datasheet Datasheet Results

(also referred to as ) is a highly integrated SMBus Level 2 Battery Charger controller manufactured by O2Micro International

. It is primarily designed for use as a Smart Battery Charger (SBC) in portable computer systems, providing multi-chemistry support and high-efficiency charging. O2Micro.com Key Specifications & Features Controller Type

: SMBus-programmable multi-chemistry battery charge controller with Hybrid Power Boost

: NMOS synchronous buck converter with fixed frequency, achieving efficiency greater than 95% Battery Voltage accuracy. Charging and Adapter Current accuracy. Programmability (via SMBus) Battery Voltage : 11-bit DAC setting ( Charge Current : 6-bit DAC setting ( Adapter Current : 6-bit DAC setting ( Battery Support : Supports various chemistries, including Li-Ion (1 to 4 cells) : Space-saving 16-pin QFN Functional Capabilities Hybrid Power Boost

: This feature allows the battery to provide power in parallel with the AC adapter during peak power demands, preventing system crashes when power needs exceed the adapter's capacity. Monitoring Low Power Consumption : The IC has a

: It provides outputs for valid adapter presence and real-time monitoring of adapter current and battery discharge current. Protection Mechanisms : Integrated safety features include: Battery over-voltage and over-current protection. Reverse connection protection. Embedded thermal shutdown. O2Micro.com Common Applications

The OZ8682L is frequently found in industrial settings and high-end portable devices where long-term reliability and reduced firmware optimization are critical. It has been documented for use in specific laptop models, such as the Apple Macbook Pro 17" (Model A1229) AliExpress Datasheet Resources

You can find further technical details or download the full document from sites like Electronics Datasheets O2Micro Product Guide Electronics Datasheets or a specific circuit diagram for this IC? AI responses may include mistakes. Learn more

Note: If you have a different manufacturer's 8682L (e.g., a memory IC, driver, or custom ASIC), please provide the brand. This review assumes the common BL8682L or similar 82L series LDO.

3. Use Cross-Reference Tools

If you cannot find "8682L," search for:

Functional equivalent: Pin-for-pin replacements like RT9193-33, AP2112K-3.3, or ME6211C33M5G.
Electrical equivalent: Any LDO with 300mA, 3.3V, SOT-23-5.

Recommendation for Sourcing a Datasheet

Because "8682L" is likely a marking code:

Search for "BA682 datasheet" or "BA682F datasheet".
Look for datasheets provided by ROHM Semiconductor, as they are the primary manufacturer of this logic series.
If the chip is from a specific automotive or industrial batch, the "L" suffix might denote a specific lead-free or automotive-grade variant, but the electrical characteristics will likely align with the standard BA682 series.

The 8682L (also identified as OZ8682L or OZ8682LN) is a high-performance battery charging controller integrated circuit primarily used in laptop power management systems. Manufactured by O2Micro International, it is designed to manage and regulate power flow from an external adapter to the laptop battery and motherboard. Key Specifications & Features

The 8682L is essential for modern laptop repair due to its role in the charging circuit. Its technical profile includes: Function: SMBus Level 2 Battery Charger IC.

Package Type: Compact QFN-16 (16-pin Quad Flat No-lead), which is ideal for space-constrained laptop motherboards.

Safety Interlocks: Features logic for motor control (in industrial applications) and safety interlocks with precision.

Protection Circuitry: Includes built-in protection against over-charge, over-discharge, overheating, over-current, and short-circuits.

Performance: Known for low power consumption design and fast-charging capabilities with no "memory effect". Pin Configuration (General Overview)

While exact pinouts for the 8682L can vary by specific manufacturer implementation, typical 16-pin charging ICs of this series include connections for: (5piece)100% New 8682L OZ8682L OZ8682LN QFN-16 Chipset

The OZ8682L (also labeled as OZ8682LN or 8682L) is a highly integrated SMBus Level 2 Battery Charger Controller manufactured by O2Micro. It is primarily designed for portable computer systems, such as laptop motherboards, to manage multi-chemistry battery charging with high precision and efficiency. Key Technical Specifications

According to the O2Micro Product Guide, the OZ8682L features:

Hybrid Power Boost: Allows the battery to provide power in parallel with the AC adapter during peak loads.

High Efficiency: Utilizes an NMOS synchronous topology with a fixed frequency, achieving over 95% efficiency. Precision Control: battery voltage accuracy. charging and adapter current accuracy. Programmable Settings via SMBus: Battery Voltage: 11-bit DAC ( Charge Current: 6-bit DAC ( Adapter Current: 6-bit DAC ( Physical Package: Compact 16-pin QFN ( Core Capabilities

Battery Support: Supports Li-Ion batteries with 1 to 4 cells and various other chemistries.

Integrated Protections: Includes built-in safeguards for battery over-voltage, over-current, reverse connection, and embedded thermal shutdown.

System Integration: Automatically detects AC adapter voltage and outputs valid adapter presence and discharge current signals to the system. Applications The OZ8682L is commonly found in:

Laptop Motherboards: Used as a Smart Battery Charger (SBC) within a Smart Battery System (SBS).

Industrial Automation: Often utilized in industrial controllers and IoT hubs due to its noise immunity and multi-tasking capabilities.

Portable Devices: Any system requiring high-efficiency power management and flexible charging profiles.

The 8682L integrated circuit (IC) refers to the OZ8682LN (also marked as OZ8682L), a specialized power management controller primarily used in battery charging and system management applications, particularly for laptops like the Apple MacBook Pro (2010 A1286). It is manufactured by O2 Micro. Technical Specifications & Parameters

Based on technical archives and component listings, here are the core parameters for the OZ8682LN: Part Number: OZ8682LN / OZ8682L Package Type: QFN-16 (Quad Flat No-lead, 16 pins)

Function: DC/DC Converter / SMPS Driver and Battery Charging Controller

Application: Battery charging management, motor control logic, and industrial safety interlocks. Key Features

Power Stability: Designed to maintain system operation during power fluctuations.

Noise Immunity: Includes high electrical noise immunity, making it suitable for sensitive industrial environments.

Logic Management: Capable of handling complex logic for safety interlocks and precision motor control.

Future-Proofing: Often used in IoT hubs and custom automation devices due to its efficiency. Pinout and Integration

The IC is typically integrated into circuits requiring precise power regulation. It is a critical component on logic boards (such as the MacBook Pro 820-2849-A) for managing charging states and power rail distribution.

Note on Datasheet Availability: Finding a full public PDF datasheet for the 8682L can be challenging because it is often a discontinued or proprietary part. For hardware repair, it is frequently compared with the EA3059QDR for parametric compatibility. (5piece)100% New 8682L OZ8682L OZ8682LN QFN-16 Chipset

(full part number ) is a specialized power management integrated circuit (PMIC) manufactured by . It is primarily used as an SMBus Level 2 Battery Charger

in laptop motherboards, including certain Apple MacBook Pro models. Core Specifications SMBus Level 2 Battery Charger with Hybrid Power Boost. Package Type: Most commonly found in a 16-pin QFN

(Quad Flat No-lead) package, though some variants may be labeled as 28-pin. Application:

Laptop motherboard power management, voltage regulation, and battery charging control. Key Feature: Hybrid Power Boost

, which allows the system to draw power from both the battery and the AC adapter simultaneously during peak load periods. AliExpress Pinout and Implementation

While the detailed internal schematic is proprietary, the OZ8682L operates as a controller chip that communicates via the SMBus (System Management Bus) to manage charging parameters such as voltage and current. WIT Computers Common Use Cases MacBook Repairs:

Often replaced in older MacBook Pro models (e.g., A1229, A1261) when the device fails to charge or detect the battery. Power Management:

Regulates the DC/DC conversion process required to safely charge Lithium-ion battery packs. WIT Computers troubleshooting a charging issue on a motherboard? MICRO OZ8682LN OZ8682L 8682LN 8682L Controller Chip ICs

The 8682L is an integrated circuit (IC) designed for specific applications, likely within the realm of electronics or telecommunications. However, without a direct datasheet provided or a widely recognized part number like "8682L," it's challenging to offer a detailed, accurate review. Integrated circuits with such designations are often specific to certain manufacturers or are used in niche applications.

Given the lack of specific information on the "8682L IC," I will provide a general guide on what to look for in an IC datasheet and how to approach a review:

Example 3: USB Charger for DIY Raspberry Pi Pico

The 8682L can be integrated on a carrier board for the Pico, charging a backup Li-ion cell while the Pico runs from USB or battery.

Troubleshooting Common Issues

Even with a correct circuit, problems arise. Here’s a diagnostic table:

| Symptom | Likely Cause | Solution | |--------------------------------------|-----------------------------------------------|----------------------------------------------| | Charging current too low | Rprog too high, or thermal foldback active | Reduce Rprog; improve cooling | | Charging never completes (red LED stays on) | Battery voltage won't reach 4.2V (old cell) or CV loop unstable | Replace battery; add 1µF at BAT pin | | Both LEDs off with VCC present | VCC < 4.3V or IC damaged | Check USB cable; replace IC | | IC gets extremely hot at 100mA | VCC > 6.5V or BAT shorted to GND | Reduce input voltage; check soldering | | Green and red LEDs both on | Fault condition (likely overvoltage or overtemperature) | Cycle power; measure VCC and battery voltage| | Battery drains when USB unplugged | Reverse leakage through VCC pin (rare) or external path | Add Schottky (BAT -> VOUT for load) |