Claims
- 1. A squelch circuit having a variable squelch hysteresis window for minimizing squelch chatter in a communication device, the squelch circuit having a plurality of squelch states including a tight squelch state and a threshold squelch state, the squelch circuit comprising:
- a variable attenuator circuit having a plurality of attenuation settings, the attenuator circuit having means for determining the squelch state of the communication device; and
- controller means responsive to the variable attenuator circuit and the magnitude of an incoming signal for widening the squelch hysteresis window in response to the attenuation setting of the variable attenuator circuit and the magnitude of the incoming signal having a level below a threshold for dynamically minimizing squelch chatter at weak signal conditions and narrowing the squelch hysteresis window in response to the attenuation setting of the variable attenuator circuit and the magnitude of the incoming signal having a level above a threshold in order to guarantee short squelch tail at strong signal conditions.
- 2. The squelch circuit of claim 1, wherein the attenuator circuit includes a programmable attenuator.
- 3. The squelch circuit of claim 1, wherein the sensing means includes means for sensing when the squelch state of the communication device is in the tight state.
- 4. A communication device having a squelch circuit having a variable squelch hysteresis window for minimizing squelch chatter in the communication device, the squelch circuit having a plurality of squelch states including a tight squelch state and a threshold squelch state, the squelch circuit comprising:
- a variable attenuator circuit having a plurality of attenuation settings, the attenuator circuit having means for determining the squelch state of the communication device; and
- controller means responsive to the variable attenuator circuit and the magnitude of an incoming signal for widening the squelch hysteresis window in response to the attenuation setting of the variable attenuator circuit and the magnitude of the incoming signal having a level below a threshold for dynamically minimizing squelch chatter at weak signal conditions and narrowing the squelch hysteresis window in response to the attenuation setting of the variable attenuator circuit and the magnitude of the incoming signal having a level above a threshold in order to guarantee short squelch tail at strong signal conditions.
Parent Case Info
This is a continuation of application Ser. No. 07/740,268, filed Aug. 5, 1991, and now abandoned.
US Referenced Citations (8)
Non-Patent Literature Citations (2)
Entry |
"Syntor X" Instruction Manual; Motorola, Inc. published Oct. 2, 1981; Chapter Receiver, sections 2.4 and 2.5 plus schematic diagram. |
"Nucleus I.C." Ed Clark, John Fuerst and Jim Kimball; unpublished, but describes a product on sale in the U.S. in 1979, pp. 88-105 only. |
Continuations (1)
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Number |
Date |
Country |
Parent |
740268 |
Aug 1991 |
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