1. Field of the Invention
The present invention relates to electronic devices, and particularly to an electronic device using a power interface circuit for preventing the electronic device from being damaged by electrostatic discharge (ESD).
2. Description of Related Art
Integrated circuits (IC) are widely used in electronic devices for processing data or power management. Integrated circuits are made from semiconductor materials, such as silicon, and insulating materials, such as silicon dioxide. Either of these materials can suffer permanent damage when subjected to high voltages generated from electrostatic discharge (ESD). Take a portable DVD player as an example, a power management IC mounted in the portable DVD player is connected to a power interface for receiving electric power from an external alternating current (AC) adapter or a battery. Generally, the power interface includes some conductive pins for contacting the AC adapter or the battery. The conductive pins are exposed for conveniently contacting the AC adapter or the battery. However, the exposed conductive pins are easy to be touched by a user, and static electricity accumulated on the user may damage the power management IC via ESD.
Therefore, an improved electronic device and its power interface circuit are needed to address the aforementioned deficiency and inadequacies.
An electronic device includes an integrated circuit, a power interface, and an interface circuit connected between the integrated circuit and the power interface for protecting the integrated circuit from being damaged by electrostatic discharge. The interface circuit includes a current limit unit connected between the power interface and the integrated circuit for limiting an electrostatic discharge current and an electrostatic protection unit connected to a common node of the power interface and the current limit unit for clamping a voltage of the common node to a predetermined value. A related integrated circuit is also provided.
Other advantages and novel features of the present invention will become more apparent from the following detailed description of preferred embodiment when taken in conjunction with the accompanying drawings.
Reference will now be made to the drawings to describe an exemplary embodiment of the present electronic device and its power interface circuit.
Referring to
The short circuit protection unit 22 is connected to the power interface 10 for protecting the electrostatic protection unit 26 and the IC 30. When an accidental low-resistance connection (i.e., short circuit) between two conductive pins in the power interface 10 occurs, resulting in an excessive electric current, the short circuit protection unit 22 protects the electrostatic protection unit 26 and the IC 30 because the short circuit protection unit 22 has electrical resistance. That is, the short circuit protection unit 22 prevents the excessive electric current from being generated and flowing through the electrostatic protection unit 26 or the IC 30.
The current limit unit 24 is connected between the common node 28 and the IC 30 for limiting an ESD current. When conductive pins become touched by an object (e.g., user's finger), an ESD event may occur and the ESD current is generated accordingly. The current limit unit 24 has a high resistance for limiting the ESD current to a safe value.
The electrostatic protection unit 26 is configured for clamping a voltage of the common node 28 at a predetermined value, so as to protect the IC 30 from the damage caused by ESD. Generally, during an ESD process, a high voltage (e.g., 10 KV) is generated momentarily. The electrostatic protection unit 26 clamps the voltage of the node 28 at the predetermined value when the high voltage is applied to the power interface 10. The predetermined value is set to be lower than a threshold value that can damage the IC 30.
The interface circuit 20 can be implemented in many kinds of electronic devices, such as notebook computers, handheld game players, and portable DVD players. For example, a portable DVD player 102 (shown in
The battery port 110 includes a ground pin 112, a detect pin 114, and a positive pin 116 (shown in
When the detect pin 114 is contacted by an object carrying electric charge, the high voltage generated during the ESD process is applied on the detect pin 114. The bidirectional ESD protection diode D1 clamps the voltage of the node 28 to the predetermined value. The predetermined value is set to be lower than the threshold value that will damage the IC 30. The second resistor R2 connected between the common node 28 and the IC 30 is used for limiting the ESD current and preventing a large ESD current from flowing to the IC 30. In particular, when the high voltage applied to the detect pin 114 is positive, because a resistance value of the second resistor R2 is much greater than that of the bidirectional ESD protection diode D1 during the ESD process, the ESD current is mostly directed to ground through the bidirectional ESD protection diode D1 while a remainder of the ESD current is restricted to a safe value and flows to the IC 30. In contrast, when the high voltage applied on the detect pin 114 is negative, most part of the ESD current flows from the ground to the object through the bidirectional ESD protection diode D1 and a minor part of the ESD current flows from the IC 30 to the object.
If a short circuit between the detect pin 114 and the positive pin 116 is established accidentally, the first resistor R1 protects the bidirectional ESD protection diode D1 and the IC 30 because the first resistor R1 prevents an excessive electric current from being generated thereby protecting the bidirectional ESD protection diode D1 from damage by preventing excessive current from flowing through the bidirectional ESD protection diode D1.
It is to be understood, however, that even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only, and changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
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