Search 19 documents in this vault
The image shows a close-up of a Milwaukee battery label adhered to a dark, textured surface (likely the battery casing itself). The label has a vibrant red background with white and black text and logos. The Milwaukee logo is prominent, with the word "Milwaukee" in stylized white lettering. Below the logo is the company name and location: "Milwaukee Electric Tool Corp., Brookfield, WI 53005". A "Recycle" logo is also visible, containing an arrow forming a circle with a "U" in the center. Further down is a bright yellow warning label containing the text "WARNING: to reduce the risk of injury, fire or explosion: read operator's manual". At the top of the label, there is technical information including the CAT. NO. 48-14-1828, voltage 18V, wattage 54 Wh and the label identifies the battery as Li-ion.
This image displays a detailed electronic circuit diagram. It illustrates various components like resistors (R), diodes (D), transistors (Q), and an integrated circuit chip (U1). There are numerous connections demonstrated via lines, denoting electrical pathways and signals. The diagram incorporates designated pin numbers and labels for each component. There are various grounding points denoted with a symbol that looks like stacked lines.
The image shows a detailed block diagram of a Battery Management System (BMS). It consists of several components: a battery (BAT) connected to input filtering resistors (Rin) and capacitors (Cin). This input stage feeds into several VC voltage control inputs (VC6, VC5, VC4, VC3, VC2, VC1, VC0). There is also a VREF, Vtab and VOUT lines. A section showing ADC Reference and the micro controller (MCU) connections including I2C, GPIO and VSS. Finally the image illustrates the current sensing circuit with many RSENSE resistors, and the the output section.
This image displays a functional block diagram of a battery management system (BMS), likely for a lithium-ion battery pack. The diagram details various stages of battery monitoring and control. It showcases cell voltage monitoring, balance control, a boost converter (VREG), Analog to Digital Converters (ADCs) for voltage and current measurement, temperature sensing, and safety features like overcurrent and undervoltage alerts. The core of the diagram includes multiple cell monitoring blocks (VC0 to VC7), a multiplexer (CELL MUX), and a control block for balance and level shift.
This image shows the back side of a printed circuit board (PCB). The board is primarily green, with numerous copper traces creating pathways for electrical signals. There are multiple rectangular cutouts along the left edge that appear to be connectors. Scattered across the board are small, circular holes, and some larger holes with metal reinforcements. Several test points are labeled "TP" followed by a number. Components are soldered to the board. The overall impression is a complex network of electrical connections.
This image shows a yellow circuit board with various electronic components and test points. The board has numerous holes for components, metallic contact pads, and traces connecting them. Multiple test points (TP1-TP15) are clearly marked with circular pads. A section of the board features a sequence of elongated oval cutouts, likely for ventilation or component access. Text on the board indicates 'Jove JVE-M2' and a revision number 'Rev 7.0 Jan-31-2013'.
This image displays a detailed electronic circuit diagram. It features various components like resistors, capacitors, diodes, transistors, and integrated circuits. The diagram shows the connections between these components using lines representing electrical pathways. There are numerous labeled test points (TP1, TP2, etc.) throughout the circuit. A large section of the image contains the pinout information for an MSP430G2744IRHA40 chip.
This is a schematic diagram of an electronic circuit centered around an MSP430G2553 microcontroller (U2). The diagram shows various connections, resistors, capacitors, and other components related to the microcontroller's power supply, communication interfaces (SCL, SDA), and various I/O pins. Key elements include decoupling capacitors, pull-up resistors, a thermal sensor connection, and a load switch configuration. The diagram details pin assignments for VCTL, VCP3, SCL, SDA, VREF, VCOUT, ALERT, SENSEN and other pins.
This image shows a yellow circuit board with numerous holes and copper traces. On the left side, there are a series of rectangular slots with circular holes alongside them, these likely serve as connectors. The board is covered in various sized holes indicating where components were likely soldered. Copper traces connect these holes, forming the pathways for electronic signals. There's a variety of hole types including small circles, larger circles, and elongated slots. The overall condition of the board appears to be good, with no obvious signs of damage.
This image shows a detailed electronic circuit diagram, likely for a microcontroller or similar embedded system. It contains numerous components, including resistors, a capacitor, a diode, a transistor, and a microcontroller chip. The diagram includes various labeled pins and connections indicating signal flow, power supply connections, and test points. It appears to be a communication or interface circuit.
This is a close-up view of a golden-colored circuit board. It's densely populated with various electronic components including resistors, capacitors, diodes, and integrated circuits. Several connectors (J1, J2) are visible, along with labels like "BAT", "CHARGE" and component identifiers (R3, C1, D2 etc.). There are numerous drilled holes indicating mounting points or connection points. The board has a slightly worn and aged appearance.
This image shows a detailed top-down view of a blue and yellow circuit board. Numerous electronic components such as resistors, capacitors, diodes, integrated circuits and connectors are visible. There are several holes drilled in the board. Text indicates component designations and some labels like "CHARGE" and "BAT+". The board has a complex, densely packed layout.
This image shows a close-up view of a yellow-colored printed circuit board (PCB). The PCB is densely populated with various electronic components, including integrated circuits (ICs), resistors, capacitors, and diodes. Traces and pads are visible, creating a complex network of connections. There are several large circular cut-outs along the left edge, potentially for connectors or standoffs. The board appears to be from an older electronic device, given its layout and component types.
The image shows a close-up, top-down view of a car's control module. It's encased in a black plastic housing, revealing a complex circuit board with numerous electronic components. The board is a golden-brown color and populated with integrated circuits, resistors, capacitors, and other small parts. There are multiple connectors and metal heat sinks attached to the board. Some areas show signs of wear or corrosion, with slight discoloration and what appears to be dried residue.
This image shows a close-up view of a golden-colored circuit board. The board is densely populated with electronic components including resistors, capacitors, and integrated circuits. There are multiple connectors along the left edge labeled “J1” and “J2”, with “CHARGE” and “BAT” indicated near them. Various labels like "R11", "C17", "D20", and "U1" are visible, identifying individual components. The board's surface is covered in complex wiring and solder points. Overall, the image conveys a detailed look at the intricate inner workings of an electronic device.
This image displays a detailed electronic circuit diagram, likely representing a power management or charging circuit. It's densely packed with components including diodes, resistors, capacitors, and an integrated circuit (IC). The diagram uses standard electronic symbols to represent these components, with labeled test points (TP) throughout the circuit for measurement and debugging. There are multiple power source connections indicated as "BAT+", and voltage references like "VSS". The IC is labeled "BQ76925RGER" with numerous pins defined and labeled around it.
This image depicts the underside of a circuit board, showcasing a complex network of copper traces, multiple drilled holes, and several electronic components. The board is primarily golden brown in color, likely made of fiberglass or similar material. The copper traces are dark and appear to connect various points. Components such as resistors and integrated circuits are visible, soldered onto the board. There are several rows of pins on the left side, suggesting a connector edge.
Detailed electronic circuit diagram featuring ICs, resistors, capacitors, and labelled pins.
Release files anywhere to upload them to this vault
Loading upload form...
