KR19990040828A - How to switch the power saving / active mode of the USB core - Google Patents

Abstract

The present invention relates to a method for switching the power saving / active mode of a USB core that can switch to a power saving mode and restore the power saving mode from the power saving mode back to an active mode even for a ROM located outside the microcomputer in which the USB core is embedded. On the other hand, when it is confirmed that the power saving mode switch command is input (S11), the use of the power supplied to the microcomputer 50 is minimized (S12), and an interrupt is generated to the external ROM 60 (S13). After executing the embedded program (S14), thereby cutting off the power supplied to the peripheral circuit portion 70 (S15), and after the built-in program interrupts the power supply to the peripheral circuit portion 70 (S16), After sufficient delay time T _d until the operation is completely completed, the power of the external ROM 60 is cut off (S19). When an active mode switching command is input, the microcomputer 50 Resupply (S32) the power to the external ROM re-supplying power to 60 and (S33), generates a predetermined settling time after the lapse (T ₁₎ (S34), the interrupt (S35), the peripheral circuit portion 70, Finally, by resupply (S36), it is a very useful invention that can reduce the power consumption compared to the conventional while performing the mode switching without the failure of the device.

Description

How to switch the power saving / active mode of the USB core

The present invention relates to a method for switching the power saving / active mode of a USB core, and more particularly, to a ROM located outside of a microcomputer with a built-in USB core, to enter a power saving mode without interrupting program execution in the ROM, and to resume the power saving mode. The present invention relates to a power saving / active mode switching method of a USB core that can be restored to a mode.

FIG. 5 illustrates a general configuration of a USB product using a 8 × 930A (H) × 50, which is a microcomputer with a USB core (Universal Serial Bus, hereinafter referred to as “USB”). A personal computer (Jack) jack 10; A microcomputer 50 for receiving and processing data output from the PC connection jack 10; A ROM (ROM: Read Only Memory) 60 in which a program to be executed under the control of the microcomputer 50 is stored; And a peripheral circuit unit 70 for performing a desired function under the control of the microcomputer 50, wherein the microcomputer 50 decodes data and signals transmitted from the PC connection jack 10. A core unit 30 having a decoder 20 embedded therein; and an interrupt generator 40 generating an interrupt for executing a program embedded in the external ROM 60 according to a signal decoded by the decoder 20. It is configured to include. In addition, the PC connection jack 10 connected to the microcomputer 50 is composed of 5V, GND and D + and D− signal lines which are differential data transmission lines.

In the USB product configured as described above, the external device uses the 5V power supplied from the PC connection jack 10, which can be supplied at a maximum of 500 kW in the normal mode (active mode), but is suspend. Since the mode enters the power saving mode by supplying only 500 mA, the PC and the external device connected to the connection standard should be designed to comply with the current limit.

The power saving mode entry command is transmitted to the core unit 30 in the microcomputer 50 by the D + and D- signal lines, which are the differential data transmission lines where all data transmission and command processing between the PC and the microcomputer 50 are performed. When the decoder 20 in the core unit 30 detects a signal input from the PC and determines that a power saving mode entry command has been input, the decoder 20 supplies power to most elements of the microcomputer 50. The power consumption of the microcomputer 50 is minimized by cutting off the switch SW1 to cut off most of the power consumption except for the core unit 30.

Subsequently, the decoder 20 controls the interrupt generator 40 to generate an interrupt signal, and a program built in the external ROM 60 started by the interrupt uses a power control signal A. By opening the switch SW3, the peripheral circuit unit 70 is turned off, and then returns to an idle state. In this case, since the current supplied from the PC through the 5V line of the PC connection jack 10 is 500 ㎂ or less, the entire microcomputer 50, the external ROM 60, and the peripheral circuit unit 70 using 5 V power. Current consumption must be designed to meet the above conditions.

On the other hand, the device entering the suspend (power saving) mode through the above process waits for a resume command of the active mode from the PC, and when the command is input through the D + and D- signal lines, the decoder ( 20) and decodes the same and supplies power to the power saving block inside the microcomputer 50, generates an interrupt, and drives the program embedded in the external ROM 60 to supply power to the peripheral circuit unit 70 again. Resuming will bring the device back to full active mode.

However, in the conventional power saving / active mode switching method as described above, the core unit 30 has the external ROM 60 even when the microcomputer 50 and the peripheral circuit unit 70 enter the power saving mode. The power supply was continuously applied to the power supply, and the chip select terminal CS of the ROM 60 was always 'LOW', so that the power supply was used, and thus the power consumption of the ROM 60 could not be lowered to 100 mW or less. Therefore, unless the external ROM 60 is embedded in the microcomputer 50, the external ROM 60 may not implement a power saving mode unlike other components.

Therefore, the present invention was created to solve the above problems, even when the ROM is provided on the outside of the microcomputer, the power saving / active mode switching of the USB core that can switch to the power saving mode and also return to the active mode The purpose is to provide a method.

1 is a block diagram showing an embodiment of a USB product for implementing a power saving / active mode switching method of the USB core according to the present invention,

2 is a flowchart illustrating a flow of a power saving mode switching method of a USB core according to the present invention;

3 is a flowchart illustrating a flow of a method of switching an active mode of a USB core according to the present invention;

4 is a timing diagram of powering on / off of a ROM;

5 is a block diagram showing a conventional USB product that employs a USB core built-in microcomputer.

* Explanation of symbols for main parts of the drawings

10: PC (Personal Computer) 20: Decoder

30: USB (Universal Serial Bus) Core 40: Interrupt Generator

50: microcomputer 60: ROM

70: Peripheral circuit section SW1, SW2, SW2 ', SW3: Switch

In the power saving mode switching method of the USB core in accordance with the present invention for achieving the above object, when a request for switching from the active mode to the power saving mode, by executing a specific program in the read-only memory to cut off the power supply to the external peripheral device A first step of making; And a second step of suppressing the use of power to the external read-only memory when a predetermined time elapses after the power supply to the peripheral device is completed.

A method of switching an active mode of a USB core according to the present invention includes: a first step of resuming power supply to an external read-only memory upon request for switching from a power saving mode to an active mode; And a second step of resuming the power supply to an external peripheral device by executing a specific program recorded in an external read-only memory when a predetermined time has elapsed after the power supply resume completion is completed.

In the power saving / active mode switching method of the USB core according to the present invention made as described above, when a power saving / active mode switching command is input from a PC, the decoder inside the USB core decrypts the same, and then, first, according to the decrypted command, Shut off the power supply.

In this case, unlike the conventional method, the decoder additionally outputs a signal for mode switching of the external read-only memory, and when switching the power saving mode, performs a power saving mode switching of the read-only memory after mode switching of the peripheral device. When the active mode is returned, the active mode switching of the read-only memory is performed before the mode switching of the peripheral device, thereby performing mode switching of the external read-only memory without affecting the mode switching of the external peripheral device. By doing so, the overall power consumption can be further reduced.

Hereinafter, an embodiment of a power saving / active mode switching method of a USB core according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a part of a USB product using a micro-core built-in microcomputer for applying an embodiment of the method for switching the power saving / active mode of the USB core according to the present invention, a PC connection jack performing the same operation as the conventional 10; Micom 50; ROM 60; And a peripheral circuit unit 70; and the microcomputer 50 also includes a core unit 30 in which the decoder 20 is embedded; and an interrupt generator 40; In the embodiment, the switch 20 further includes a switch SW2 intermittent to supply the ROM 60 by the decoder 20. In the embodiment of FIG. 1B, the decoder 20 waits for the ROM 60. A switch SW2 'is further included for switching to a standby mode.

2 and 3 illustrate a flow of an embodiment of a power saving / active mode switching method of the USB core according to the present invention. Hereinafter, the mode switching method of FIGS. 2 and 3 will be described with reference to the configuration of FIG. 1. It explains in detail.

In the embodiment of the method for switching the power saving / active mode of the USB core according to the present invention as shown in FIGS. 2 and 3, first, the decoder 20 continuously checks the signal transmitted through the PC connection jack 10. When it is confirmed that a power saving mode switch command is input (S11), the microcomputer 50 is opened by opening an internal switch SW1 for transmitting power supplied through the 5V line to various element circuits in the microcomputer 50. Minimal power is supplied to the inside (S12).

In addition, the core unit 30 outputs an 'external power interruption signal' which delays the signal of opening the internal switch SW1 by a predetermined time Td, as shown in FIG. During (Td), the decoder 20 applies a signal to the interrupt generator 40 to generate an interrupt (S13), and the microcomputer 50 generates an interrupt in the external ROM 60 by the generated interrupt. The program of the specified specific address is executed (S14), and the switch SW3 is opened by the execution of the program to cut off the power supplied to the peripheral circuit unit 70 (S15).

The built-in program cuts off the power supply to the peripheral circuit unit 70 and enters an idle state. At this time, the signal for opening the internal switch SW1 is delayed in the core unit 30. After a sufficient time (Td) to be sure that the built-in program is completed and enters the idle state is output as a ratio to cut off the power of the external ROM (60) (S19). Accordingly, execution of the embedded program is completely stopped and power is not consumed in the ROM 60 (S19).

If there is a command to switch back to the active mode after switching to the power saving mode as described above, to return to the active mode by the process as shown in Figure 3, first, the decoder 20 is connected to the PC jack 10 While continuously confirming the signal transmitted from the PC through the active mode switch command (S31), the internal switch (SW1) is short-circuited to supply power to the inside of the microcomputer (50) and at the same time (S32) Inverting the 'external power interruption signal' restores the switch SW2 and accordingly supplies power to the external ROM 60 (S33).

After the supply of power to the external ROM 60, after the stabilization time (T1 in FIG. 4) has elapsed until the device is stabilized and becomes operable by the supply of power (S34), the decoder 20 The interrupt generator 40 causes an interrupt to be generated (S35), so that a predetermined program in the external ROM 60 is executed (S36). When the switch SW3 is returned by the execution of this program and the power is supplied to the peripheral circuit unit 70 again (S37), the power supply is again supplied to all components in which the power supply is cut off when switching to the power saving mode. The transition to the resumed active mode is complete.

In the embodiment of FIG. 1A, a method of opening the switch SW2 on a power path supplied to the external ROM 60 is used to suppress power consumption supplied to the external ROM 60. In the embodiment of the present invention, the state applied to the chip selection terminal CS of the external ROM 60 is inverted at the same time point as in the embodiment of FIG. 1A through the 'external power interruption signal' to change the power saving mode. When the external ROM 60 enters the standby mode, power consumption is minimized, and upon returning to the active mode, data read operation in the external ROM 60 becomes possible before an appropriate point in time. The power supply to the peripheral circuit unit 70 is resumed by the program in parentheses.

The power saving / active mode switching method of the USB core according to the present invention made as described above switches to the power saving mode even for the external ROM itself in which the program including the power saving mode switching function is embedded, and in the power saving mode, the device is completely disabled without any trouble. By being able to return to the active mode, it is a very useful invention to further reduce the power consumption.

Claims (5)

On request to switch from active mode to sleep mode, A first step of executing a specific program in a read-only memory to cut off power supply to an external peripheral device; And And a second step of suppressing use of power to the external read-only memory when a predetermined time elapses after the power supply to the peripheral device is completed. The method of claim 1, Inhibiting the use of the power source is a power saving mode switching method of the USB core, characterized in that by the interruption of the power supplied to the external read-only memory. The method of claim 1, The suppression of the power supply is performed by switching the standby mode of the external read-only memory. On request to switch from sleep mode to active mode, Resuming power supply to an external read-only memory; And A second step of resuming power supply to an external peripheral device by executing a specific program recorded in an external read-only memory when a predetermined time elapses after the power supply resumption is completed; the active mode of the USB core How to switch. On request to switch from sleep mode to active mode, A first step of switching an external read-only memory from a standby mode to an active mode; And A second step of resuming the power supply to an external peripheral device by executing a specific program recorded in an external read-only memory when a predetermined time elapses after the switching of the active mode is completed; How to switch.