Regulator IP for GLOBALFOUNDRIES
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Regulator IP
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36
Regulator IP
for GLOBALFOUNDRIES
from 7 vendors
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10)
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CC-100IP-RF Analog and RF Sensitivity Enhancement IP
- Enhances the Sensitivity of Analog and RF Frontend Receivers
- Enhances the PSRR od Analog and RF Frontend Receivers
- Occupies the same on chip area as standard DCAPs with at least a 600X effective capacitance increase
- Up to a 36% Dynamic Power and RF Emissions Reduction
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Low Drop-Out Linear Regulator
- The agileLDO is a linear Low Drop-Out voltage regulator (LDO) providing precision and programmable voltage regulation.
- The regulator architecture provides a high dynamic performance making it suitable for demanding digital applications.
- Whilst the low noise and high PSRR lends itself to powering noise-sensitive analog circuits.
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NFC Power Management Unit (0.6/1.2/1.5 V output voltage, 10/20/50 uA output current, 2 MHz output clock frequency)
- 0.6/1.2/1.5 V output voltage, 10/20/50 uA output current, 2 MHz output clock frequency
- GF 130nm Embedded EEPROM technology process
- Reverse current protection
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NFC Power Management Unit (1.08 – 1.32 V output voltage, 50 nA output current)
- Global Foundries Embedded EEPROM 0.13 um
- Input voltage limit with up to 50 mA shunt capability
- Reverse current protection
- Low drop out voltage regulator (capless solution)
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30 mA flash LDO voltage regulator (output voltage 1.8 V)
- Global Foundries CMOS 55 nm
- Low drop out
- Low current consumption
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30 mA LDO voltage regulator (output voltage 0.9 to 1.3 V)
- Global Foundries CMOS 55 nm
- Low drop out
- Low current consumption
- Two modes operations: “Normal”, “Economy”
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2 mA LDO voltage regulator (output voltage 1.2 V)
- Global Foundries CMOS 55 nm
- Low drop out
- Low current consumption
- Two modes operations: “Normal”, “Economy”
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Linear Regulator for digital island
- Low Bill-of-Material: optimized in density for the best trade-off for the given output current and input voltage range
- A cost-efficient solution compared to external Power Management
- Behavioral models: ease of integration in SoC and optimization of Power Management Network (PMNet) using models to verify mode transitions as well as noise propagation
- Safe integration in the SoC thanks to transfer functions, templates and profiles included in the specification
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CC-100IP-MB Electric Vehicle Mileage Booster IP
- Extends EV Driving range by 10%
- Extends the driving and Biking Range of Electric Vehicles from 16 to 30 Miles
- Occupies the same on chip area as standard DCAPs with at least a 600X effective capacitance increase
- Up to a 36% Dynamic Power and RF Emissions Reduction
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Switching regulator, inductor-based, PWM mode, high efficiency
- High efficiency buck regulator (up to 95% peak), over wide load current range
- Pulse With Modulation (PWM) mode enabling to master the frequency response
- Automatic mode change of the Power Stage Unit, maintaining high-efficiency at low load current
- Low Bill-Of-Material: fully integrated feedback and active compensation loop do not require additional external passive components.
