System and method for ESD Protection

Details System and method for ESD Protection System and method for ESD Protection

2000-01-14

2002-09-03

Wojiechowicz, Edward (Department: 2815)

Active solid-state devices (e.g., transistors, solid-state diode

Field effect device

Having insulated electrode

C257S356000, C257S357000, C257S360000

Reexamination Certificate

active

06445039

ABSTRACT:

BACKGROUND OF THE INVENTION
Radio receivers, or tuners, are widely used in applications requiring the reception of electromagnetic energy. Applications can include broadcast receivers such as radio and television, set top boxes for cable television, receivers in local area networks, test and measurement equipment, radar receivers, air traffic control receivers, and microwave communication links among others. Transmission of the electromagnetic energy may be over a transmission line or by electromagnetic radio waves.
The design of a receiver is one of the most complex design tasks in electrical engineering. In the current state of the art, there are many design criteria that must be considered to produce a working radio receiver. Tradeoffs in the design's performance are often utilized to achieve a given objective. There are a multitude of performance characteristics that must be considered in designing the receiver. However, certain performance characteristics are common to all receivers. Distortion and noise are two such parameters. The process of capturing the signal creates distortion that must be accounted for in the design of the radio receiver. Once a radio signal is captured, the noise surrounding the received signal in the receiver must be considered. Radio signals are often extremely weak and if noise is present in the circuit, the signal, even though satisfactorily received, can be easily lost in this noise floor. The current state of the art in receiver design is often directed to overcoming these receiver limitations in a cost effective manner.
In an integrated radio receiver ESD discharge circuitry is typically utilized to protect the integrated circuit from static discharge. Radio signals in a receiver tend to be of small amplitude and high frequency and are therefore susceptible to distortion caused by capacitive loading by standard ESD control methods. It is therefore desirable to provide a system of ESD protection that does not interfere with the reception of the high frequency, small amplitude signals.
SUMMARY OF THE INVENTION
There is therefore provided in a present embodiment of the invention, an integrated circuit ESD protection system.
An embodiment of the integrated circuit protection system comprises a voltage reference pad ring and an inner ground pad ring disposed around the perimeter of the IC, with the IC bonding pads disposed within the perimeter of the pad rings. One or more local power supply and ground bus systems are linked to the pad rings. The bus systems each comprise a first local ESD clamp coupled between the local power supply line and local ground line, a second local ESD clamp coupled between a local voltage bus and the voltage reference pad ring, and a third ESD clamp coupled between a local ground bus and the ground pad ring.
The IC bonding pads are coupled to a ggNMOS transistor that discharges built up static charge from the IC bonding pad. A drain and a source connection of the ggNMOS transistor is coupled between the bonding pad and ground. The ggNMOS transistor is activated by a static charge build up that activates a gate boosting structure.
The IC bonding pads are constructed with a reduced area, and number of layers over a salicided diffusion implant to reduce capacitance.


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