Difference between revisions of "60 GHz Transceivers"
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__NUMBEREDHEADINGS__ | __NUMBEREDHEADINGS__ | ||
| − | + | <div style="overflow-x: auto"> | |
| − | {| style="text-align:center; width: | + | {| style="text-align:center; width:100%" |
| − | |style="background-color:#f2f2f2"|<span style="color: black">'''Front End'''</span> | + | |style="width: 14%; min-width:130px; background-color:#f2f2f2"|<span style="color: black">'''Front End'''</span> |
| − | |style="background-color:#f2f2f2"|<span style="color: black">'''Status of IC'''</span> | + | |style="width: 14%; min-width:130px; background-color:#f2f2f2"|<span style="color: black">'''Status of IC'''</span> |
| − | |style="background-color:#f2f2f2"|<span style="color: black">'''Package'''</span> | + | |style="width: 15%; min-width:130px; background-color:#f2f2f2"|<span style="color: black">'''Package'''</span> |
| − | |style="background-color:#f2f2f2"|<span style="color: black">'''Antenna Solutions'''</span> | + | |style="width: 15%; min-width:150px; background-color:#f2f2f2"|<span style="color: black">'''Antenna Solutions'''</span> |
| − | |style="background-color:#f2f2f2"|<span style="color: black">'''Evaluation / Sensor'''</span> | + | |style="width: 14%; min-width:130px; background-color:#f2f2f2"|<span style="color: black">'''Evaluation / Sensor'''</span> |
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*[[(FAM) LGA | Land Grid Array (LGA)]] | *[[(FAM) LGA | Land Grid Array (LGA)]] | ||
|style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top"| | |style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top"| | ||
| − | * | + | *[[Antennas#Antenna on PCB|Antenna on PCB]] |
| − | * | + | *[[Antennas#Antenna on Chip|Antenna on Chip]] |
| + | *[[Antennas#Antenna on Package|Antenna on Package]] (1) | ||
*Monostatic version (2) | *Monostatic version (2) | ||
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*[[(FAM) LGA | Land Grid Array (LGA)]] | *[[(FAM) LGA | Land Grid Array (LGA)]] | ||
|style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top; background-color:#f2f2f2"| | |style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top; background-color:#f2f2f2"| | ||
| − | * | + | *[[Antennas#Antenna on PCB|Antenna on PCB]] |
| − | * | + | *[[Antennas#Antenna on Package|Antenna on Package]] (1) |
|style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top; background-color:#f2f2f2"| | |style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top; background-color:#f2f2f2"| | ||
SiRad MIMO 60 GHz (under development) | SiRad MIMO 60 GHz (under development) | ||
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|style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top"| | |style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top"| | ||
*[[Bare Die Bonded to PCB]] | *[[Bare Die Bonded to PCB]] | ||
| − | *[[Chip Embedding]] (1) | + | *[[Chip Embedding]] (1) |
|style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top"| | |style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top"| | ||
| − | * | + | *[[Antennas#Antenna on PCB|Antenna on PCB]] |
| − | |||
|style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top"| | |style="text-align: left; padding-left: 1%; padding-right: 1%; vertical-align: top"| | ||
SiRad MIMO 60 GHz (under development) | SiRad MIMO 60 GHz (under development) | ||
|} | |} | ||
| − | + | </div> | |
(1) Under investigation</br> | (1) Under investigation</br> | ||
(2) Coupler on chip; one antenna for Tx and Rx</br> | (2) Coupler on chip; one antenna for Tx and Rx</br> | ||
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= TRX_060_11 = | = TRX_060_11 = | ||
| − | The IC is an integrated transceiver circuit for the 60 GHz ISM band operating in the frequency range of 58.3 GHz - 63.9 GHz. It includes a low-noise-amplifier (LNA) with gain control, quadrature mixers, poly-phase filter, a power amplifier (PA) with gain control, Voltage Controlled Oscillator with digital band switching and divide-by-32 circuit. The output power of the transmitter can be controlled by pwr0 and pwr1 inputs. The IC is fabricated in SiGe BiCMOS technology by using the bipolar part and the CMOS part [https://www.ihp-microelectronics.com/en/services/mpw-prototyping/sigec-bicmos-technologies.html]. | + | The IC is an integrated transceiver circuit for the 60 GHz ISM band operating in the frequency range of 58.3 GHz - 63.9 GHz. It includes a low-noise-amplifier (LNA) with gain control, quadrature mixers, poly-phase filter, a power amplifier (PA) with gain control, Voltage Controlled Oscillator with digital band switching, and divide-by-32 circuit. The output power of the transmitter can be controlled by pwr0 and pwr1 inputs. The IC is fabricated in SiGe BiCMOS technology by using the bipolar part and the CMOS part [https://www.ihp-microelectronics.com/en/services/mpw-prototyping/sigec-bicmos-technologies.html]. |
The main use of the transceiver IC is in radar systems for the ISM band from 57 GHz to 64 GHz. FMCW is the preferred radar principle to be used. | The main use of the transceiver IC is in radar systems for the ISM band from 57 GHz to 64 GHz. FMCW is the preferred radar principle to be used. | ||
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= TR2_060_10 = | = TR2_060_10 = | ||
| − | The IC is an integrated transceiver circuit for the 60 GHz ISM-band operating in the frequency range of 58.3 GHz – 63.9 GHz. It has one transmit and two receive | + | The IC is an integrated transceiver circuit for the 60 GHz ISM-band operating in the frequency range of 58.3 GHz – 63.9 GHz. It has one transmit and two receive channels. It includes a low-noise-amplifier (LNA) with gain control, quadrature mixers, poly-phase filter, a power amplifier (PA) with gain control, Voltage Controlled Oscillator with digital band switching, and divide-by-32 circuit. The output power of the transmitter can be controlled by “TXgain” input. The IC is fabricated in SiGe BiCMOS technology [https://www.ihp-microelectronics.com/en/services/mpw-prototyping/sigec-bicmos-technologies.html]. |
The main use of the transceiver IC is in radar systems for the ISM-band from 57 GHz to 64 GHz. FMCW is the preferred radar principle to be used. It can be used in radar systems with angular resolution (monopulse principle). | The main use of the transceiver IC is in radar systems for the ISM-band from 57 GHz to 64 GHz. FMCW is the preferred radar principle to be used. It can be used in radar systems with angular resolution (monopulse principle). | ||
Latest revision as of 14:16, 13 March 2021
| Front End | Status of IC | Package | Antenna Solutions | Evaluation / Sensor |
|
Single Channel (Monostatic) Transceiver
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Multi Channel Transceiver
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SiRad MIMO 60 GHz (under development) | ||
|
Multi Channel Transceiver
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|
SiRad MIMO 60 GHz (under development) |
(1) Under investigation
(2) Coupler on chip; one antenna for Tx and Rx
Contents
1 TRX_060_11
The IC is an integrated transceiver circuit for the 60 GHz ISM band operating in the frequency range of 58.3 GHz - 63.9 GHz. It includes a low-noise-amplifier (LNA) with gain control, quadrature mixers, poly-phase filter, a power amplifier (PA) with gain control, Voltage Controlled Oscillator with digital band switching, and divide-by-32 circuit. The output power of the transmitter can be controlled by pwr0 and pwr1 inputs. The IC is fabricated in SiGe BiCMOS technology by using the bipolar part and the CMOS part [1].
The main use of the transceiver IC is in radar systems for the ISM band from 57 GHz to 64 GHz. FMCW is the preferred radar principle to be used.
2 TR2_060_10
The IC is an integrated transceiver circuit for the 60 GHz ISM-band operating in the frequency range of 58.3 GHz – 63.9 GHz. It has one transmit and two receive channels. It includes a low-noise-amplifier (LNA) with gain control, quadrature mixers, poly-phase filter, a power amplifier (PA) with gain control, Voltage Controlled Oscillator with digital band switching, and divide-by-32 circuit. The output power of the transmitter can be controlled by “TXgain” input. The IC is fabricated in SiGe BiCMOS technology [2].
The main use of the transceiver IC is in radar systems for the ISM-band from 57 GHz to 64 GHz. FMCW is the preferred radar principle to be used. It can be used in radar systems with angular resolution (monopulse principle).
