91 | Clock Synthesis | PLL | CCPLL250M90A | Low jitter 50 MHz to 250 MHz Phase Locked Loop | 2023 | TSMC | CMOS | 90 nm | Silicon Validation |
90 | Clock Synthesis | RC Oscillator | CCOSC16M90A | 16 MHz temperature stable oscillator with digital trimming input. The frequency stability over -40°C to 125°C is ±2%. The total frequency accuracy across PVT after trimming is ±4% | 2023 | TSMC | CMOS | 90 nm | Silicon Validation |
89 | Clock Synthesis | RC Oscillator | CCRCOSC32K90A | Low power 32.768 kHz temperature stable RC Oscillator with digital trimming input for RTC subsystem | 2023 | TSMC | CMOS | 90 nm | Silicon Validation |
88 | Clock Synthesis | RC Oscillator | CCOSC32kCAL40A | 32.768 kHz RC Oscillator calibration block for RTC subsystem | 2023 | TSMC | CMOS | 40 nm | Silicon Validation |
87 | Clock Synthesis | RC Oscillator | CCOSC32k40A | Low power 32.768 kHz RC Oscillator for clock generation for RTC subsystem | 2023 | TSMC | CMOS | 40 nm | Silicon Validation |
86 | Clock Synthesis | XTAL Driver | CCXTAL32k0A | Low power 32.768 kHz XTAL Oscillator for clock generation for RTC subsystem | 2023 | TSMC | CMOS | 40 nm | Silicon Validation |
85 | Clock Synthesis | RC Oscillator | CCOSC16MCAL40A | 16 MHz RC Oscillator calibration block | 2023 | TSMC | CMOS | 40 nm | Silicon Validation |
84 | Clock Synthesis | RC Oscillator | CCOSC16M40A | 16 MHz RC Oscillator for clock generation | 2023 | TSMC | CMOS | 40 nm | Silicon Validation |
83 | Clock Synthesis | XTAL Driver | CCXTAL16M40A | 16 MHz XTAL Oscillator for clock generation | 2023 | TSMC | CMOS | 40 nm | Silicon Validation |
82 | Power Management | Temperature Monitor | CCTEMPSENS40A | The Temperature Sensor is a high accuracy temperature measurement circuit. It covers temperature range from -40ºC to 125ºC. The temperature is calculated by measurement of output frequency | 2024 | TSMC | CMOS | 40 nm | In Development |
81 | Power Management | LDO | CCRTCLDO1V1I5MA40A | Low-Dropout Voltage Regulator generating 1.1 V with maximum load of 5 mA for RTC subsystem | 2023 | TSMC | CMOS | 40 nm | Silicon Validation |
80 | Power Management | Voltage Reference | CCRTCBG0V86ULP40A | Ultra low power 0.86 V Voltage Reference for RTC subsystem | 2023 | TSMC | CMOS | 40 nm | Silicon Validation |
79 | Power Management | Charge Pump | CCCHPUMP90A | Charge pump-based boost regulator providing 2.5 V supply in case of low VDA | 2022 | TSMC | CMOS | 90 nm | Silicon Validation |
78 | Power Management | DCDC | CCDCDC300MA90A | DCDC converter generating 1.2 V core supply from 3.3 V input voltage, capable of handling 300 mA current load and achieving 85% efficiency | 2022 | TSMC | CMOS | 90 nm | Silicon Validation |
77 | Power Management | BGVR | CCPMPOR90A | Power management block consisting of Bandgap Voltage Reference, Low-Dropout Voltage Regulator, Power-On Reset and Brown-Out Detector | 2022 | TSMC | CMOS | 90 nm | Silicon Validation |
76 | Data Converters | DAC | CCDSDAC80DBHL90A | Analog back-end of Delta-Sigma Digital-to-Analog Converter working with 64 MHz clock achieving 80 dB SND and 0.03% THD in 100 kHz to 500 kHz bandwidth, capable of handling 10 nF load | 2022 | TSMC | CMOS | 90 nm | Silicon Validation |
75 | Data Converters | DAC | CCDSDAC80DB90A | Analog back-end of Delta-Sigma Digital-to-Analog Converter working with 64 MHz clock achieving 80 dB SND and 0.03% THD in 100 kHz to 500 kHz bandwidth | 2022 | TSMC | CMOS | 90 nm | Silicon Validation |
74 | Data Converters | ADC | CCDSMOD10B90A | Delta-Sigma Modulator working with 32 MHz clock achieving 10-bit ENOB for 64 OSR (Oversampling Ratio) | 2022 | TSMC | CMOS | 90 nm | Silicon Validation |
73 | RF/Analog Front-Ends | Amplifier | CCINAMPTRANS90A | Voltage Amplifier with integrated Low-Pass Filter and gain programmable in range 10-100 | 2022 | TSMC | CMOS | 90 nm | Silicon Validation |
72 | RF/Analog Front-Ends | Amplifier | CCINAMPABS90A | Rail-to-Rail input and output Instrumental Amplifier with integrated Low-Pass Filter | 2022 | TSMC | CMOS | 90 nm | Silicon Validation |
71 | RF/Analog Front-Ends | Amplifier | CCINAMP90A | Rail-to-Rail input and output Instrumental Amplifier with gain programmable in range 1-100 V/V and bandwidth programmable from 50 kHz up to 750 MHz | 2022 | TSMC | CMOS | 90 nm | Silicon Validation |
70 | Power Management | DCDC | CCDCDC1V8I300MA40A | DCDC converter generating 1.8 V with maximum load of 300 mA | 2022 | TSMC | CMOS | 40 nm | Silicon Validation |
69 | Power Management | LDO | CCLDO1V8I300MA40A | Low-Dropout Voltage Regulator generating 1.8 V with maximum load of 300 mA | 2022 | TSMC | CMOS | 40 nm | Silicon Validation |
68 | Clock Synthesis | PLL | CCPLL500M40A | 200 MHz to 500 MHz Phase Locked Loop | 2022 | TSMC | CMOS | 40 nm | Silicon Validation |
67 | Power Management | V-I Converter | CCVI130A | Voltage-to-Current Converter working as Current Reference Generator | 2022 | Global Foundries | SiGe BiCMOS | 130 nm | Silicon Proven |
66 | Power Management | BGVR | CCBGVRPTAT130A | 1.0 V Bandgap Voltage Reference with PTAT output | 2022 | Global Foundries | SiGe BiCMOS | 130 nm | Silicon Proven |
65 | RF/Analog Front-Ends | Voltage Buffer | CCBUF50OHM130A | 50 Ω analog buffer | 2022 | Global Foundries | SiGe BiCMOS | 130 nm | Silicon Proven |
64 | RF/Analog Front-Ends | PGA | CCPGABIPLN130A | Programmable Voltage Gain Amplifier optimized for 50 Ω load | 2022 | Global Foundries | SiGe BiCMOS | 130 nm | Silicon Proven |
63 | RF/Analog Front-Ends | TIA | CCTIAMOSLN130A | Low Noise MOS input stage Transimpedance Amplifier for detector impedance >20 kΩ | 2022 | Global Foundries | SiGe BiCMOS | 130 nm | Silicon Proven |
62 | RF/Analog Front-Ends | TIA | CCTIABIPLN130A | Low Noise Bipolar input stage Transimpedance Amplifier for detector impedance from 50 Ω to 20 kΩ | 2022 | Global Foundries | SiGe BiCMOS | 130 nm | Silicon Proven |
61 | Power Management | POR | CCPOR1V1N40A | Ultra low power Power-On Reset monitoring 1.1 V supply voltage with inverted output | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
60 | Power Management | LDO | CCLDO1V130MA40A | Low-Dropout Voltage Regulator generating 1.1 V with maximum load of 30 mA | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
59 | Power Management | V-I Converter | CCIREF40A | Voltage-to-Current Converter working as Current Reference Generator, which produces 16 4 µA and 7 1 µA currents based on 0.8 V reference voltage | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
58 | Power Management | BGVR | CCBG1V1LP40A | Low power 1.1 V Bandgap Voltage Reference | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
57 | Clock Synthesis | PLL | CCGADPLL25B40 | GNSS ADPLL for L2 and L5 band | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
56 | Clock Synthesis | PLL | CCGADPLL1B40 | GNSS ADPLL for L1 band | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
55 | Data Converters | ADC | CCGADC8B200M40A | GNSS IF 8-bit 200 Msps Analog-to-Digital Converter | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
54 | RF/Analog Front-Ends | RF/Analog Front-End | CCGNSSAFEL125B40A | GNSS RF Analog Front-End for L1, L2 and L5 bands | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
53 | RF/Analog Front-Ends | BIST | CCRFAFEBIST40A | GNSS RF Analog Front-End Build-In Self-Test | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
52 | RF/Analog Front-Ends | Voltage Buffer | CCGMEASBUFF40A | GNSS IF measurement buffer | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
51 | RF/Analog Front-Ends | PGA | CCGPGA12DB40A | GNSS IF Programmable Gain Amplifier with 12 dB tuning step | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
50 | RF/Analog Front-Ends | Amplifier | CCGPREAMP40A | GNSS IF preamplifier | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
49 | RF/Analog Front-Ends | Mixer | CCGMIX40A | GNSS Mixer | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
48 | RF/Analog Front-Ends | BALUN | CCGBALUN25B40A | GNSS BALUN covering L2 and L5 band | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
47 | RF/Analog Front-Ends | BALUN | CCGBALUN1B40A | GNSS BALUN covering L1 band | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
46 | RF/Analog Front-Ends | LNA | CCGLNA125B40A | GNSS Low Noise Amplifier covering L1, L2 and L5 bands | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
45 | RF/Analog Front-Ends | Antenna Detector | CCANTDET40A | Antenna connection and failure detector | 2021 | TSMC | CMOS | 40 nm | Silicon Validation |
44 | Power Management | LDO | CCLDO1V2POR65A | Low-Dropout Voltage Regulator generating 1.2 V with maximum load of 5 mA with Power-On Reset | 2020 | TSMC | CMOS | 65 nm | Silicon Proven |
43 | Clock Synthesis | DLL | CCDLL24M1TO16MUL65A | 24 MHz maximum output frequency Delay Locked Loop with multiplication factor from 1 to 16 | 2020 | TSMC | CMOS | 65 nm | Silicon Proven |
42 | Clock Synthesis | RC Oscillator | CCOSC32kCAL110A | 32.768 kHz RC Oscillator calibration block for RTC subsystem | 2020 | HHGrace | CMOS | 110 nm | Silicon Proven |
41 | Clock Synthesis | RC Oscillator | CCOSC16MCAL110A | 16 MHz RC Oscillator calibration block | 2020 | HHGrace | CMOS | 110 nm | Silicon Proven |
40 | RF/Analog Front-Ends | BIST | CCRFAFEBIST40A | GNSS RF Analog Front-End Build-In Self-Test | 2020 | HHGrace | CMOS | 110 nm | Silicon Proven |
39 | Power Management | LDO | CCRTCLDO1V5I5MA110A | Low-Dropout Voltage Regulator generating 1.5 V with maximum load of 5 mA for RTC subsystem | 2019 | HHGrace | CMOS | 110 nm | Silicon Proven |
38 | Clock Synthesis | XTAL Driver | CCXTAL32k110A | Low power 32.768 kHz XTAL Oscillator for clock generation for RTC subsystem | 2019 | HHGrace | CMOS | 110 nm | Silicon Proven |
37 | Clock Synthesis | RC Oscillator | CCOSC32k110A | Low power 32.768 kHz RC Oscillator for clock generation for RTC subsystem | 2019 | HHGrace | CMOS | 110 nm | Silicon Proven |
36 | Clock Synthesis | XTAL Driver | CCXTAL16M110A | 16 MHz XTAL Oscillator for clock generation | 2019 | HHGrace | CMOS | 110 nm | Silicon Proven |
35 | Clock Synthesis | RC Oscillator | CCOSC16M110A | 16 MHz RC Oscillator for clock generation | 2019 | HHGrace | CMOS | 110 nm | Silicon Proven |
34 | Power Management | DCDC | CCDCDC2V2I300MA110A | DCDC converter generating 2.2 V with maximum load of 300 mA | 2018 | HHGrace | CMOS | 110 nm | Silicon Proven |
33 | Power Management | LDO | CCLDO2V2I300MA110A | Low-Dropout Voltage Regulator generating 2.2 V with maximum load of 300 mA | 2018 | HHGrace | CMOS | 110 nm | Silicon Proven |
32 | Power Management | LDO | CCLDO1V5I200MA110A | Low-Dropout Voltage Regulator generating 1.5 V with maximum load of 200 mA | 2018 | HHGrace | CMOS | 110 nm | Silicon Proven |
31 | Power Management | LDO | CCLDO1V8I300MA110A | Low-Dropout Voltage Regulator generating 1.8 V with maximum load of 150 mA | 2018 | HHGrace | CMOS | 110 nm | Silicon Proven |
30 | Power Management | LDO | CCLDO1V5I40MA110A | Low-Dropout Voltage Regulator generating 1.5 V with maximum load of 40 mA | 2018 | HHGrace | CMOS | 110 nm | Silicon Proven |
29 | Power Management | LDO | CCGLDO1V530MA110A | Low-Dropout Voltage Regulator generating 1.5 V with maximum load of 30 mA | 2018 | HHGrace | CMOS | 110 nm | Silicon Proven |
28 | Clock Synthesis | PLL | CCPLL100M110A | 50 MHz to 100 MHz Phase Locked Loop | 2018 | HHGrace | CMOS | 110 nm | Silicon Proven |
27 | Clock Synthesis | PLL | CCPLL200M180A | Low jitter 50 MHz to 200 MHz Phase Locked Loop | 2018 | TSMC | CMOS | 180 nm | Silicon Proven |
26 | Data Converters | ADC | CCDSMOD10B180A | Delta-Sigma Modulator working with 32 MHz clock achieving 10-bit ENOB for 64 OSR (Oversampling Ratio) | 2018 | TSMC | CMOS | 180 nm | Silicon Proven |
25 | Power Management | POR | CCPOR1V5N110A | Ultra low power Power-On Reset monitoring 1.5 V supply voltage with inverted output | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
24 | Power Management | Voltage Reference | CCRTCBG1V110A | Ultra low power 1.0 V Voltage Reference for RTC subsystem | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
23 | Power Management | V-I Converter | CCGIREF110A | Voltage-to-Current Converter working as Current Reference Generator, which produces 14 4 µA, 8 1 µA and 2 5nA currents based on 1 V reference voltage | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
22 | Power Management | BGVR | CCGBG1V110A | Low power 1.0 V Bandgap Voltage Reference | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
21 | Clock Synthesis | PLL | CCGADPLL5B110 | GNSS ADPLL for L5 band | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
20 | Clock Synthesis | PLL | CCGADPLL1B110 | GNSS ADPLL for L1 band | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
19 | Data Converters | ADC | CCGADC3B110A | GNSS IF 3-bit 64 Msps Analog-to-Digital Converter | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
18 | RF/Analog Front-Ends | RF/Analog Front-End | CCGNSSAFEL15B110A | GNSS RF Analog Front-End for L1 and L5 bands | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
17 | RF/Analog Front-Ends | Voltage Buffer | CCGMEASBUFF110A | GNSS IF measurement buffer | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
16 | RF/Analog Front-Ends | LP Filter | CCGLPF110A | GNSS IF Low-Pass Filter with programmable gain and bandwidth | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
15 | RF/Analog Front-Ends | PGA | CCGPGA1DB110A | GNSS IF Programmable Gain Amplifier with 1 dB tuning step | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
14 | RF/Analog Front-Ends | PGA | CCGPGA6DB110A | GNSS IF Programmable Gain Amplifier with 6 dB tuning step | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
13 | RF/Analog Front-Ends | Amplifier | CCGPREAMP110A | GNSS IF preamplifier | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
12 | RF/Analog Front-Ends | Mixer | CCGMIX110A | GNSS Mixer | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
11 | RF/Analog Front-Ends | BALUN | CCGBALUN5B110A | GNSS BALUN covering L5 band | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
10 | RF/Analog Front-Ends | BALUN | CCGBALUN1B110A | GNSS BALUN covering L1 band | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
9 | RF/Analog Front-Ends | LNA | CCGLNA15B110A | GNSS Low Noise Amplifier covering L1 and L5 bands | 2017 | HHGrace | CMOS | 110 nm | Silicon Proven |
8 | Clock Synthesis | RC Oscillator | CCOSC16M180A | 16 MHz temperature stable oscillator with digital trimming input. The frequency stability over -40°C to 125°C is ±2%. The total frequency accuracy across PVT after trimming is ±4% | 2017 | TSMC | CMOS | 180 nm | Silicon Proven |
7 | Clock Synthesis | RC Oscillator | CCRCOSC32K768180A | Low power 32.768 kHz temperature stable RC Oscillator with digital trimming input for RTC subsystem | 2017 | TSMC | CMOS | 180 nm | Silicon Proven |
6 | Power Management | V-I Converter | CCISRC8U180A | Voltage-to-Current Converter working as Current Reference Generator, which produces in total 45 8 µA currents based on 1 V reference voltage | 2016 | TSMC | CMOS | 180 nm | Silicon Proven |
5 | Power Management | BGVR | CCPMPORLDO180A | Power management block consisting of Bandgap Voltage Reference, Low-Dropout Voltage Regulator, Power-On Reset and Brown-Out Detector | 2016 | TSMC | CMOS | 180 nm | Silicon Proven |
4 | RF/Analog Front-Ends | VGA | CCPREAMPSC180A | Switched Capacitor Variable Gain Amplifier working with working with 64 MHz clock integrated with 75 kHz and 1 MHz Low-Pass Filter. | 2016 | TSMC | CMOS | 180 nm | Silicon Proven |
3 | RF/Analog Front-Ends | TIA | CCFDRRAMP180A | Fully differential Rail-to-Rail Input/Output Transimpedance Amplifier | 2016 | TSMC | CMOS | 180 nm | Silicon Proven |
2 | Data Converters | DAC | CCDSDAC83DB180A | Analog back-end of Delta-Sigma Digital-to-Analog Converter working with 64 MHz clock achieving 80 dB SND and 0.03% THD in 100 kHz to 500 kHz bandwidth | 2016 | TSMC | CMOS | 180 nm | Silicon Proven |
1 | Data Converters | ADC | CCDSMOD12B180A | Delta-Sigma Modulator working with 64 MHz and 32 MHz clock achieving 12-bit ENOB for 32 OSR (Oversampling Ratio). | 2016 | TSMC | CMOS | 180 nm | Silicon Proven |