44 results on '"Philips, Kathleen"'
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2. SE3: Favorite Circuit Design and Testing Mistakes of Starting Engineers
3. A low-power fast start-up crystal oscillator with an autonomous dynamically adjusted load
4. A high-accuracy concurrent phase-based ranging for large-scale dense BLE network
5. A Low-Power Fast Start-Up Crystal Oscillator With an Autonomous Dynamically Adjusted Load
6. A Hybrid Design Automation Tool for SAR ADCs in IoT
7. A 0.7-V 0.43-pJ/cycle Wakeup Timer based on a Bang-bang Digital-Intensive frequency-Locked-Loop for IoT Applications
8. A hybrid design automation tool for SAR ADCs in IoT
9. A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load
10. A CMOS Polar Single-Supply Class-G SCPA for LTE NB-IoT and Cat-M1
11. A 0.62nJ/b multi-standard WiFi/BLE wideband digital polar TX with dynamic FM correction and AM alias suppression for IoT applications
12. A 1.33 mW, 1.6psrms-Integrated-Jitter, 1.8-2.7 GHz Ring-Oscillator-Based Fractional-N Injection-Locked DPLL for Internet-of-Things Applications
13. A circuit-design-driven tool with a hybrid automation approach for SAR ADCs in IoT
14. A 0.7-V 0.43-pJ/cycle Wakeup Timer Based on a Bang-Bang Digital-Intensive Frequency-Locked-Loop for IoT Applications
15. A 0.8V 0.8mm2 bluetooth 5/BLE digital-intensive transceiver with a 2.3mW phase-tracking RX utilizing a hybrid loop filter for interference resilience in 40nm CMOS
16. An Energy-Efficient Antenna Impedance Detection Using Electrical Balance for Single-Step On-Chip Tunable Matching in Wearable/Implantable Applications
17. An RF-Powered DLL-Based 2.4-GHz Transmitter for Autonomous Wireless Sensor Nodes
18. A 1.3nJ/b IEEE 802.11ah fully digital polar transmitter for IoE applications
19. A 8mW-RX/113mW-TX, Sub-GHz SoC with time-dithered PA ramping for LPWAN applications
20. An RF-Powered DLL-Based 2.4-GHz Transmitter for Autonomous Wireless Sensor Nodes
21. A 2.4GHz BLE-compliant fully-integrated wakeup receiver for latency-critical IoT applications using a 2-dimensional wakeup pattern in 90nm CMOS
22. A 4mW-RX 7mW-TX IEEE 802.11ah fully-integrated RF transceiver
23. An Ultra-Low Power 1.7-2.7 GHz Fractional-N Sub-Sampling Digital Frequency Synthesizer and Modulator for IoT Applications in 40 nm CMOS
24. 5.3 A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load
25. 24.1 A 770pJ/b 0.85V 0.3mm2 DCO-based phase-tracking RX featuring direct demodulation and data-aided carrier tracking for IoT applications
26. 17.4 A sub-mW antenna-impedance detection using electrical balance for single-step on-chip tunable matching in wearable/implantable applications
27. 24.7 A 673µW 1.8-to-2.5GHz dividerless fractional-N digital PLL with an inherent frequency-capture capability and a phase-dithering spur mitigation for IoT applications
28. A 46 $\mu \text{W}$ 13 b 6.4 MS/s SAR ADC With Background Mismatch and Offset Calibration
29. The Design Challenges of IoT: From System Technologies to Ultra-Low Power Circuits
30. A 1.3 nJ/b IEEE 802.11ah Fully-Digital Polar Transmitter for IoT Applications
31. A 3.7mW-RX 4.4mW-TX fully integrated Bluetooth Low-Energy/IEEE802.15.4/proprietary SoC with an ADPLL-based fast frequency offset compensation in 40nm CMOS
32. A 0.9–1.2V supplied, 2.4GHz Bluetooth Low Energy 4.0/4.2 and 802.15.4 transceiver SoC optimized for battery life
33. 26.3 A 1.3nJ/b IEEE 802.11ah fully digital polar transmitter for IoE applications
34. Design and built-in characterization of digital-to-time converters for ultra-low power ADPLLs
35. An ultra-low-power wireless transceiver SoC for medical applications
36. Codesign of Electrically Short Antenna–Electronics Interfaces in the Receiving Mode
37. A 3.5mW 315/400MHz IEEE802.15.6/proprietary mode digitally-tunable radio SoC with integrated digital baseband and MAC processor in 40nm CMOS
38. A 0.33 nJ/bit IEEE802.15.6/Proprietary MICS/ISM Wireless Transceiver With Scalable Data Rate for Medical Implantable Applications
39. A 2.4 GHz Power Amplifier With 40% Global Efficiency at ${-}$ 5 dBm Output for Autonomous Wireless Sensor Nodes
40. 13.2 A 3.7mW-RX 4.4mW-TX fully integrated Bluetooth Low-Energy/IEEE802.15.4/proprietary SoC with an ADPLL-based fast frequency offset compensation in 40nm CMOS
41. 26.2 A 5.5fJ/conv-step 6.4MS/S 13b SAR ADC utilizing a redundancy-facilitated background error-detection-and-correction scheme
42. A 1.2 nJ/bit 2.4 GHz Receiver With a Sliding-IF Phase-to-Digital Converter for Wireless Personal/Body Area Networks
43. A 46 \mu \textW 13 b 6.4 MS/s SAR ADC With Background Mismatch and Offset Calibration.
44. A 2.4 GHz Power Amplifier With 40% Global Efficiency at -5 dBm Output for Autonomous Wireless Sensor Nodes.
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