Patents by Inventor Mohammad Bagher Vahidfar
Mohammad Bagher Vahidfar has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10193583Abstract: An RF tuner is described for handling RF signals in a broad frequency range and a broad power range while maintaining high linearity and tolerating high power blockers. A continuous feedback loop comprising a substantially linear LNA and an RF RSSI can adjust the power of the RF signal on the RF side. A substantially linear, variable gain transconductor may convert and amplify the voltage of the RF signal to a current signal. The converted signal may be down converted and filtered to an IF or baseband signal. An IF or baseband RSSI may measure the power of the down converted and filtered signal. The measured power may be compared against a preferred value to adjust the amplification of the transconductor.Type: GrantFiled: June 27, 2017Date of Patent: January 29, 2019Assignee: SiTune CorporationInventors: Vahid Mesgarpour Toosi, Mohammad Bagher Vahidfar, Saeid Mehrmanesh
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Publication number: 20170294929Abstract: An RF tuner is described for handling RF signals in a broad frequency range and a broad power range while maintaining high linearity and tolerating high power blockers. A continuous feedback loop comprising a substantially linear LNA and an RF RSSI can adjust the power of the RF signal on the RF side. A substantially linear, variable gain transconductor may convert and amplify the voltage of the RF signal to a current signal. The converted signal may be down converted and filtered to an IF or baseband signal. An IF or baseband RSSI may measure the power of the down converted and filtered signal. The measured power may be compared against a preferred value to adjust the amplification of the transconductor.Type: ApplicationFiled: June 27, 2017Publication date: October 12, 2017Applicant: SiTune CorporationInventors: Vahid Mesgarpour Toosi, Mohammad Bagher Vahidfar, Saeid Mehrmanesh
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Publication number: 20150249475Abstract: A RF tuner is described for handling RF signals in a broad frequency range and a broad power range while maintaining high linearity and tolerating high power blockers. A continuous feedback loop comprising a substantially linear LNA and a radio frequency RSSI can adjust the power of the RF signal on the RF side. On the IF side, a continuous feedback loop comprising a substantially linear, variable gain transconductor and a RSSI can adjust the power of the IF signal.Type: ApplicationFiled: May 18, 2015Publication date: September 3, 2015Inventors: Vahid Mesgarpour Toosi, Mohammad Bagher Vahidfar, Saeid Mehrmanesh
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Patent number: 9059773Abstract: A RF tuner is described for handling RF signals in a broad frequency range and a broad power range while maintaining high linearity and tolerating high power blockers. A continuous feedback loop comprising a substantially linear LNA and a radio frequency RSSI can adjust the power of the RF signal on the RF side. On the IF side, a continuous feedback loop comprising a substantially linear, variable gain transconductor and a RSSI can adjust the power of the IF signal.Type: GrantFiled: February 23, 2010Date of Patent: June 16, 2015Assignee: SITUNE CORPORATIONInventors: Vahid Mesgarpour Toosi, Mohammad Bagher Vahidfar, Saeid Mehrmanesh
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Patent number: 8565703Abstract: An incoming RF signal can be amplified in a RF front end of a RF receiver by conveying the signal through one of a multiple amplification paths. On each path, the gain can be controlled by RF automatic gain control (AGC) circuits. Each amplification path can be designed to handle incoming signals in a designated power range and to optimize receiver performance characteristics such as the noise figure (NF) and odd harmonic linearity in that power range. Signal power can be measured at different locations of the receiver and bypass switches can be used to convey the RF signals down one of the multiple paths based on the power measurements, according to executable logical code. An incoming signal power hysteresis can be applied to stabilize the system. Further, signal power averaging and switch delaying mechanisms can be employed to stabilize the system for rapidly fluctuating signals.Type: GrantFiled: September 10, 2012Date of Patent: October 22, 2013Assignee: SiTune CorporationInventors: Mohammad Bagher Vahidfar, Vahid Mesgarpour Toosi, Saeid Mehrmanesh
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Publication number: 20130005289Abstract: An incoming RF signal can be amplified in a RF front end of a RF receiver by conveying the signal through one of a multiple amplification paths. On each path, the gain can be controlled by RF automatic gain control (AGC) circuits. Each amplification path can be designed to handle incoming signals in a designated power range and to optimize receiver performance characteristics such as the noise figure (NF) and odd harmonic linearity in that power range. Signal power can be measured at different locations of the receiver and bypass switches can be used to convey the RF signals down one of the multiple paths based on the power measurements, according to executable logical code. An incoming signal power hysteresis can be applied to stabilize the system. Further, signal power averaging and switch delaying mechanisms can be employed to stabilize the system for rapidly fluctuating signals.Type: ApplicationFiled: September 10, 2012Publication date: January 3, 2013Applicant: SiTune CorporationInventors: Mohammad Bagher Vahidfar, Vahid Mesgarpour Toosi, Saeid Mehrmanesh
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Patent number: 8265580Abstract: An incoming RF signal can be amplified in a RF front end of a RF receiver by conveying the signal through one of a multiple amplification paths. On each path, the gain can be controlled by RF automatic gain control (AGC) circuits. Each amplification path can be designed to handle incoming signals in a designated power range and to optimize receiver performance characteristics such as the noise figure (NF) and odd harmonic linearity in that power range. Signal power can be measured at different locations of the receiver and bypass switches can be used to convey the RF signals down one of the multiple paths based on the power measurements, according to executable logical code. An incoming signal power hysteresis can be applied to stabilize the system. Further, signal power averaging and switch delaying mechanisms can be employed to stabilize the system for rapidly fluctuating signals.Type: GrantFiled: November 17, 2009Date of Patent: September 11, 2012Assignee: SiTune CoporationInventors: Mohammad Bagher Vahidfar, Vahid Mesgarpour Toosi, Saeid Mehrmanesh
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Publication number: 20110117868Abstract: An incoming RF signal can be amplified in a RF front end of a RF receiver by conveying the signal through one of a multiple amplification paths. On each path, the gain can be controlled by RF automatic gain control (AGC) circuits. Each amplification path can be designed to handle incoming signals in a designated power range and to optimize receiver performance characteristics such as the noise figure (NF) and odd harmonic linearity in that power range. Signal power can be measured at different locations of the receiver and bypass switches can be used to convey the RF signals down one of the multiple paths based on the power measurements, according to executable logical code. An incoming signal power hysteresis can be applied to stabilize the system. Further, signal power averaging and switch delaying mechanisms can be employed to stabilize the system for rapidly fluctuating signals.Type: ApplicationFiled: November 17, 2009Publication date: May 19, 2011Applicant: SiTune CorporationInventors: Mohammad Bagher Vahidfar, Vahid Mesgarpour Toosi, Saeid Mehrmanesh
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Publication number: 20110086603Abstract: A RF tuner is described for handling RF signals in a broad frequency range and a broad power range while maintaining high linearity and tolerating high power blockers. A continuous feedback loop comprising a substantially linear LNA and a radio frequency RSSI can adjust the power of the RF signal on the RF side. On the IF side, a continuous feedback loop comprising a substantially linear, variable gain transconductor and a RSSI can adjust the power of the IF signal.Type: ApplicationFiled: February 23, 2010Publication date: April 14, 2011Applicant: SiTune CorporationInventors: Vahid Mesgarpour Toosi, Mohammad Bagher Vahidfar, Saeid Mehrmanesh