Abstract: A system of communication between stacked integrated circuits powered by different voltage supply levels in a multiple cell-stacked battery pack is disclosed. The system includes a number of battery cells and a number of integrated circuits. Each integrated circuit includes a battery detecting unit, a data transceiving unit and a power acquiring unit. Since the data transceiving unit transmits signals by toggling voltage level, current flow which causes higher power consumption can be avoided. Meanwhile, the system of communication can therefore be applied to many internal communicating protocols.

Abstract: A system of communication between stacked integrated circuits powered by different voltage supply levels in a multiple cell-stacked battery pack is disclosed. The system includes a number of battery cells and a number of integrated circuits. Each integrated circuit includes a battery detecting unit, a data transceiving unit and a power acquiring unit. Since the data transceiving unit transmits signals by toggling voltage level, current flow which causes higher power consumption can be avoided. Meanwhile, the system of communication can therefore be applied to many internal communicating protocols.

Abstract: An inrush current measuring device is disclosed in the present invention. The device includes a current sensing unit, an analog-to-digital converter, a filter, a microcontroller, and a display unit. The inrush current measuring device of the present invention can determine an inrush current by use of at least five sampling current values and does not need to depend on an observation starting point for detecting current value of the inrush current or a continuous detecting time period to obtain accurate measurement of inrush current.

Abstract: An integrated circuit (IC) with a self-proofreading function includes a micro control unit (MCU) and a one-time programmable (OTP) memory connected with the MCU. The OTP memory includes an instruction memory region for storing instructions and a parameter memory region for storing standard parameters for proofreading. The MCU computes a measured result according to the standard parameters. The IC can operate without an external memory, therefore, the proofreading procedure using the IC is simplified, and the cost of the terminal product using the IC can be reduced.

Abstract: A method for programming a one-time programmable memory of an integrated circuit includes the following steps: writing an instruction set into the one-time programmable memory via a first programmable interface, running a programmable self-instruction of the instruction set, and writing a proofreading value of the integrated circuit into the one-time programmable memory via a second programmable interface. The present method takes full advantage of the one-time programmable memory. Manufacturers for manufacturing integrated circuits don't write various proofreading values corresponding to different applications. A producing efficiency can be increased, and a producing cost can be decreased. The present integrated circuit needs not to be communicated with an addition storing device, so the present integrated circuit has a simple construction, and the cost can be decreased. Since the present integrated circuit can write perform a proofreading self-instruction, the producing cost can be decreased.

Abstract: An integrated circuit (IC) includes a micro control unit (MCU), a one-time programmable (OTP) memory directly connected with the MCU, an electrical charge pump having an output port and an enable port connected to the MCU, and a switching circuit having a control port connected to the MCU, a first input port connected to the output port of the electrical charge pump, a second input port connected to a power source of the MCU, and an output port connected to the OTP memory to provide an operating voltage and a recording voltage for the OTP memory. Because the OTP memory can choose the operating voltage or the recording voltage, a measuring apparatus using this IC doesn't need an external power source to provide a VDD voltage being 5.8 volts. Therefore, a power consuming of the IC can be reduced.

Abstract: An integrated circuit (IC) with a self-proofreading function includes a micro control unit (MCU) and a one-time programmable (OTP) memory connected with the MCU. The OTP memory includes an instruction memory region for storing instructions and a parameter memory region for storing standard parameters for proofreading. The MCU computes a measured result according to the standard parameters. The IC can operate without an external memory, therefore, the proofreading procedure using the IC is simplified, and the cost of the terminal product using the IC can be reduced.

Abstract: A method for programming a one-time programmable memory of an integrated circuit includes the following steps: writing an instruction set into the one-time programmable memory via a first programmable interface, running a programmable self-instruction of the instruction set, and writing a proofreading value of the integrated circuit into the one-time programmable memory via a second programmable interface. The present method takes full advantage of the one-time programmable memory. Manufacturers for manufacturing integrated circuits don't write various proofreading values corresponding to different applications. A producing efficiency can be increased, and a producing cost can be decreased. The present integrated circuit needs not to be communicated with an addition storing device, so the present integrated circuit has a simple construction, and the cost can be decreased. Since the present integrated circuit can write perform a proofreading self-instruction, the producing cost can be decreased.

Abstract: An integrated circuit (IC) includes a micro control unit (MCU), a one-time programmable (OTP) memory directly connected with the MCU, an electrical charge pump having an output port and an enable port connected to the MCU, and a switching circuit having a control port connected to the MCU, a first input port connected to the output port of the electrical charge pump, a second input port connected to a power source of the MCU, and an output port connected to the OTP memory to provide an operating voltage and a recording voltage for the OTP memory. Because the OTP memory can choose the operating voltage or the recording voltage, a measuring apparatus using this IC doesn't need an external power source to provide a VDD voltage being 5.8 volts. Therefore, a power consuming of the IC can be reduced.

Abstract: A method and a device for calibrating an interior clock generator installed inside a power monitoring unit of a rechargeable battery. The device includes an input pin for inputting an external clock signal from an exterior clock generator installed outside the power monitoring unit. A calibration timer control circuit is connected to the input pin. A register is connected to the calibration timer control circuit for outputting a start signal to activate the calibration timer control circuit. A counter and a timer are controlled by the calibration timer control circuit to be activated simultaneously therewith to count the outside clock signal and an internal clock signal generated from the interior clock generator, respectively. Such that the timer stops counting when the counter stops counting, a first count of the timer is compared to a second count of the counter to calibrate the interior clock generator.

Abstract: A method and a device for calibrating an interior clock generator installed inside a power monitoring unit of a rechargeable battery. The device includes an input pin for inputting an external clock signal from an exterior clock generator installed outside the power monitoring unit. A calibration timer control circuit is connected to the input pin. A register is connected to the calibration timer control circuit for outputting a start signal to activate the calibration timer control circuit. A counter and a timer are controlled by the calibration timer control circuit to be activated simultaneously therewith to count the outside clock signal and an internal clock signal generated from the interior clock generator, respectively. Such that the timer stops counting while the counter stops counting, a first count of the timer is compared to a second count of the counter to calibrate the interior clock generator.

Abstract: A power monitoring and balancing device for a battery has a power monitoring unit, a storing unit with a plurality of cells and a balancing unit. An analog-to-digital converter formed in the power monitoring unit detects each voltage of cells timely and transmits detected result to a micro controller unit to determine whether each voltage is the same or some are higher than others. If there exits different voltage, the balancing unit connected between that cell and the power monitoring unit will discharge a small amount current of the cell with higher voltage to make every cell maintain the same voltage for facilitating the battery fill with or exhaust electric power equally.