KR20020078191A - Microcontroller unit embedded usb controller - Google Patents

Abstract

The electronic device employing the USB disclosed herein is connected to a microcontroller unit performing overall control of the electronic device and a host through a USB (Universal Serial Bus) cable, and transmitting and receiving data between the microcontroller unit and the host. Includes a USB controller to control it. The USB controller generates a control signal for resetting the microcontroller unit when a reset signal is received from the host. Therefore, even if the power-on reset circuit malfunctions, it is possible to implement a microcontroller unit that is normally reset by the built-in USB controller.

Description

MICROCONTROLLER UNIT EMBEDDED USB CONTROLLER

The present invention relates to a microcontroller unit (MCU) incorporating a universal serial bus (USB).

With the development of computer processors and the development of application programs, various peripheral devices can be connected to a computer and the capacity of the computer peripheral port is approaching its limit. USB was developed by leading companies in the computer and telephone industry (Intel, Compaq, IBM, DEC, Microsoft, NEC, Norton Telecom) in response to a wider range of easier-to-use peripheral needs. In other words, USB is a new interface standard between computers and peripherals that can realize plug and play functionality almost completely. In February 1996, Intel released the "Intel 82930A" controller, which can do it, to speed PC development around the world.

127 peripherals can be connected to a system employing USB, and up to 16 end points can be defined for one peripheral. In other words, up to 16 kinds of functions can be built into one peripheral device. Examples of peripherals that may be connected to a USB system include telephone or telephone networks, modems, printers, scanners, gamepads, microphones, digital speakers, stylus, joysticks, mice, keyboards, monitors, digital cameras, and the like.

The keyboard, one of the peripherals employing USB, has a microcontroller unit (MCU) with a built-in USB controller and operates in connection with a host (eg, a computer) employing USB. The MCU in the keyboard is reset by a power-on reset signal when power is supplied from the host via a USB cable. However, when the operation of connecting / disconnecting the host and the keyboard is repeatedly performed for a short time, the keyboard may not be normally reset due to a malfunction of the circuit.

Accordingly, an object of the present invention is to solve the above-mentioned problems, and to provide a microcontroller with a built-in USB having improved performance.

1 is a block diagram showing a circuit configuration of a host and a keyboard and their connection relationships according to a preferred embodiment of the present invention; And

FIG. 2 is a flowchart illustrating a procedure of detecting whether a USB controller shown in FIG. 1 is connected to a host.

* Description of the symbols for the main parts of the drawings *

10: Host 12: USB Controller

20: keyboard 22: microcontroller unit

24: USB controller 26: power-on reset circuit

30: USB cable

According to a feature of the present invention for achieving the object of the present invention as described above, an electronic device employing USB is: a microcontroller unit for performing overall control of the electronic device and via a USB (Universal Serial Bus) cable It is connected to the host, and includes a USB controller for controlling data transmission and reception between the microcontroller unit and the host. The USB controller generates a control signal for resetting the microcontroller unit when a reset signal is received from the host.

In a preferred embodiment, the USB controller is embedded in the microcontroller unit.

According to another feature of the present invention, a method of resetting a microcontroller unit by an embedded Universal Serial Bus (USB) controller connected to a host via a USB (Universal Serial Bus) cable comprises: a reset signal from the host via the USB cable. Detecting whether a signal is received, resetting the USB controller when a reset signal is received from the host, and generating a signal for the reset USB controller to reset the microcontroller. do.

(Action)

By such a device, even if the power-on reset circuit malfunctions, it is possible to implement a microcontroller unit that is normally reset by the built-in USB controller.

(Example)

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating a circuit configuration of a host and a keyboard and a connection relationship thereof according to a preferred embodiment of the present invention.

Referring to FIG. 1, a host (in this embodiment, a computer) 10 employing a USB (Universal Serial Bus) has a USB controller 12. The keyboard 20, which is a peripheral device connected to the host 10, includes a microcontroller unit 22 having a USB controller 24. The host 10 and the keyboard 20 are interconnected via a USB cable 30.

The USB cable 30 includes a power supply voltage VDD line, a ground voltage GND line, and two data lines D + and D-. According to the USB protocol, the length of the USB cable 30 should be up to 5 m, the data signal should follow the 3.3V CMOS drive level, and the bit rate should be either low 1.5M bits / sec or high speed 12M bits / sec. . The data signals D + and D- are differential signals that are out of phase with each other when transitioned from a high level (logical '1') to a low level (logical '0') or when transitioned from a low level to a high level. The transition is made at a speed having a predefined slope.

The microcontroller unit 22 provided in the keyboard 20 includes a reset port (RESET), for example, a 64h port for performing a reset and a self test function, and the microcontroller unit 22 Correspondingly, the third bit (bit 2) of the input / output address 64h port is provided as a system flag. The power on reset circuit 26 configured outside the microcontroller unit 22 includes a resistor R1 and a capacitor C1 connected in series between the power line VDD and the ground voltage of the USB cable 30. The connection node N1 of the resistor R1 and the capacitor C1 is connected to the reset port RESET of the microcontroller unit 22. Therefore, when the keyboard 20 is connected to the host 10 through the USB cable 30, the keyboard 20 is connected to the reset port RESET of the microcontroller unit 22 by the power supply voltage VDD provided from the host 10. The high level signal is applied. The microcontroller unit 22 performs the reset and self-diagnostic functions of the keyboard 20 in response to this signal.

On the other hand, when the host 10 and the keyboard 20 are connected, the host 10 receives a signal for resetting the USB controller 24 included in the keyboard 20 to receive data lines D + and D-. To the USB controller 24. The USB controller 24 is reset in response to a reset signal from the host 10.

However, when the operation of connecting / disconnecting the host 10 and the keyboard 20 is repeatedly performed for a short time, the reset of the keyboard 20 may not be normally performed due to the charge charged in the capacitor C1. Often. In the present invention, a reset of the USB controller 24 is used to solve this problem.

1 and 2, the operation of the keyboard 20 according to the preferred embodiment of the present invention is described. FIG. 2 is a flowchart showing a control procedure of detecting whether a USB controller 24 is connected to a host shown in FIG. 1.

1 and 2, the USB controller 24 detects whether a reset signal is received from the host 10 (step S100). If a reset signal provided from the host 10 is detected, the USB controller 24 is automatically reset (step S110). The reset USB controller 24 generates a control signal for resetting the microcontroller unit 22 (step S120).

The microcontroller unit 22 according to the present invention is normally reset by the built-in USB controller 24 even if the power-on reset circuit 26 included in the keyboard 20 malfunctions. In addition, even if the power-on reset circuit 26 is not configured separately, the microcontroller unit 22 may be normally reset by the USB controller 24. In this embodiment, the USB controller 24 has been described assuming that it is embedded in the microcontroller unit 22, the USB controller 24 is separated from the microcontroller unit 22 to be configured in the keyboard 20 It can be obvious.

In the above, the configuration and operation of the circuit according to the present invention are shown in accordance with the above description and drawings, but this is merely described, for example, and various changes and modifications are possible without departing from the spirit of the present invention. .

According to the present invention as described above, even if the power-on reset circuit malfunctions, the microcontroller unit is normally reset by the built-in USB controller. Therefore, the performance of the electronic device employing USB is improved.

Claims (3)

In electronic devices employing USB: A microcontroller unit performing overall control of the electronic device; A USB controller connected to a host through a USB (Universal Serial Bus) cable, the USB controller controlling data transmission and reception between the microcontroller unit and the host; And the USB controller generates a control signal for resetting the microcontroller unit when a reset signal is received from the host. The method of claim 1, The USB controller is a microcontroller unit with a built-in USB controller, characterized in that built in the microcontroller unit. In a method of resetting a microcontroller unit by an integrated Universal Serial Bus (USB) controller connected to a host via a USB (Universal Serial Bus) cable: Detecting whether a reset signal is received from a host via the USB cable; Resetting the USB controller when a reset signal is received from the host; And And resetting the reset USB controller to generate a signal for resetting the microcontroller.