2.4G PLL(UMC 28nm HPC) |
By Quotes |
24.000 K μm^2 |
2.4 GHz |
28 nm |
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Clock output 2.4GHz
Input clock 10 ~ 50MHz
Current consumption: < 4mA
Supply: 1.8V / 0.9V
UMC 28nm HPC
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Introduction |
14-Bit 3 MSPS ADC in GSMC110nm |
60000 Points |
32.000 K μm^2 |
3 MHz |
110 nm |
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UIP_ADC14_3M_245303 is compact and low power 14-bit analog-to-digital converter silicon IP. It has 20 single-end input channel selection multiplexer or 10 differential input channels selection. This ADC uses fully differential SAR architecture optimized for low power and small area. The ADC is designed for high dynamic performance for input frequencies up to Nyquist rate. This ADC consumes 150 uA at 3 MSPS operation and occupies silicon area of 0.32 mm2 . The ADC has high immunity to substrate noise and is ideal for SoC integration.
APPLICATIONS
General purpose data acquisition
Battery monitory system
Temperature monitory system
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Introduction |
32 bits RISC Microcontroller |
By Quotes |
33.000 K Gates |
100 MHz |
180 nm |
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The CPU Core is a 32-bit microprocessor. It has a 32-bit data path, a 32-bit register bank, and 32-bit memory interfaces. The processor has a Harvard architecture, which means that it has a separate instruction bus and data bus. This allows instructions and data accesses to take place at the same time, and as a result of this, the performance of the processor increases because data accesses do not affect the instruction pipeline.However, the instruction and data buses share the same memory space (a unified memory system). In other words, you cannot get 8 GB of memory space just because you have separate bus interfaces.
Applications
Wearables
IoT
Motor Control
Appliances
Connectivity
Smart home/building/enterprice/planet
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Introduction |
4.2V-to-1.2V DC/DC Converter |
By Quotes |
40.000 K μm^2 |
1 MHz |
130 nm |
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The DCDC12 is a 0.13μm DC to DC converter in buck mode cell that converters input voltage to a smaller output voltage. The output voltage can be programmed from 1.05V to 1.3V.An external 10uH inductor is necessary.
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Introduction |
4.2V-to-1.8V DC/DC Converter |
By Quotes |
40.000 K μm^2 |
1 Hz |
130 nm |
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The DCDC18 is a 0.13μm DC to DC converter in buck mode cell that converters input voltage to a smaller output voltage. The output voltage can be programmed from 1.65V to 1.9V.An external 10uH inductor is necessary.
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Introduction |
PLL with Multiple Output Frequency |
By Quotes |
40.000 K μm^2 |
12.156 MHz |
130 nm |
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The PLL is a 0.13μm Phase-Locked Loop (PLL) cell that provides a clock multiplier that can generate a stable 48M/96M/120MHz/156MHz clock from a 12MHz clock source. This is a “generic” PLL which integrates the Voltage-Controlled Oscillator (VCO), Phase-Frequency Detector, Low Pass Filter, Loop Divider and Post Divider. This PLL provides an operating voltage range of 1.08V ~ 1.32V, and an operating junction temperature range of -40˚ ~ 125℃.
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Introduction |
10-bit 165 MSPS ADC IP in 28 nm |
80000 Points |
70.000 K μm^2 |
165 MHz |
28 nm |
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UIP_ADC10_165M_564144 is an ultra-compact and very low power analog-to-digital converter (ADC) silicon IP. The 10-bit 165 MSPS ADC includes an internal custom bandgap voltage reference. It is capable of supplying bias currents to other parallel ADCs.
The ADC uses fully differential pipeline architecture with custom low-disturbance digital correction technique which allows single supply bus for both digital and analog. The ADC is designed for high dynamic performance for input frequencies up to Nyquist. This makes the IP perfectly suitable for video, imaging and communication appliances.
The IP is available in different metal options as well as deep N-well (DNW) option for SoC with high level of substrate noise. It consumes only 12mW at 165 MSPS operation and requires silicon area of 0.07 mm^2. The IP does not require any external decoupling and is ideal for integration in mixed-signal systems. The output data of ADC is available in 2’s complement format.
UIP_ADC10_165M_564144 can be used in the following applications:
‧Digital imaging
‧TV/Video
‧Wireless LAN
‧Rx communication channel
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Introduction |
10-bit 165 MSPS ADC IP in 28 nm |
80000 Points |
70.000 K μm^2 |
165 MHz |
28 nm |
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UIP_ADC10_165M_809744 is an ultra-compact and very low power analog-to-digital converter (ADC) silicon IP. The 10-bit 165 MSPS ADC includes an internal custom bandgap voltage reference. It is capable of supplying bias currents to other parallel ADCs.
The ADC uses fully differential pipeline architecture with custom low-disturbance digital correction technique which allows single supply bus for both digital and analog. The ADC is designed for high dynamic performance for input frequencies up to Nyquist. This makes the IP perfectly suitable for video, imaging and communication appliances.
The IP is available in different metal options as well as deep N-well (DNW) option for SoC with high level of substrate noise. It consumes only 12mW at 165 MSPS operation and requires silicon area of 0.07 mm2. The IP does not require any external decoupling and is ideal for integration in mixed-signal systems. The output data of ADC is available in 2’s complement format.
UIP_ADC10_165M_809744 can be used in the following applications:
‧Digital imaging
‧TV/Video
‧Wireless LAN
‧Rx communication channel
‧IOT
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Introduction |
14 Bit Rail to Rail DAC |
60000 Points |
75.000 K μm^2 |
1 MHz |
110 nm |
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UIP_DAC14_1M_392231 is compact and low power 14-bit digital-to-analog converter silicon IP. It features wide range input supply voltage from 1.7V to 5.6V. Its single-end output ranges from 0.1 to 0.9 of supply voltage.
This DAC IP is self-biased and optimized for low power and small area. At 1 MHz conversation rate, it only consumes 680uA to drive 15K/50pF loading and occupies silicon area of 0.075 mm2.
APPLICATIONS
General purpose digital to analog converter
Battery monitory system
Housekeeping
Auxiliary functionality
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Introduction |
14-Bit 1MSPS DAC in GSMC110nm |
By Quotes |
75.000 K μm^2 |
1 MHz |
110 nm |
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MIC_DAC14 is compact and low power 14-bit digital-to-analog converter silicon IP. It features wide range input supply voltage from 1.7V to 5.6V. Its single-end output ranges from 0.1 to 0.9 of supply voltage.
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Introduction |