• Title/Summary/Keyword: 1.8V supply

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Low Power Level-Up/Down Shifter with Single Supply for the SoC with Multiple Supply (다중전원 SoC용 저전력 단일전원 Level-Up/Down Shifter)

  • Woo, Young-Mi;Kim, Doo-Hwan;Cho, Kyoung-Rok
    • The Journal of the Korea Contents Association
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    • v.8 no.3
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    • pp.25-31
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    • 2008
  • We propose a low power level-up/down shifter with single supply that can be used at SoC with multiple supply. The proposed circuit interfaces IPs which are operated on the different supply voltages. The circuit is designed with a single supply that decreases the low power consumption and the complexity of supply routing and layout. The proposed circuit operated at 500MHz for level-up and at 1GHz for level-down. The level-up/down shifter improves noise immunity of the system at I/O circuit. The circuit is evaluated for 1.8V, 2.5V, 3.3V supply with 0.18um CMOS technology, respectively.

A Low Voltage Bandgap Current Reference with Low Dependence on Process, Power Supply, and Temperature

  • Cheon, Jimin
    • Journal of Advanced Information Technology and Convergence
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    • v.8 no.2
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    • pp.59-67
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    • 2018
  • The minimum power supply voltage of a typical bandgap current reference (BGCR) is limited by operating temperature and input common mode range (ICMR) of a feedback amplifier. A new BGCR using a bandgap voltage generator (BGVG) is proposed to minimize the effect of temperature, supply voltage, and process variation. The BGVG is designed with proportional to absolute temperature (PTAT) characteristic, and a feedback amplifier is designed with weak-inversion transistors for low voltage operation. It is verified with a $0.18-{\mu}m$ CMOS process with five corners for MOS transistors and three corners for BJTs. The proposed circuit is superior to other reported current references under temperature variation from $-40^{\circ}C$ to $120^{\circ}C$ and power supply variation from 1.2 V to 1.8 V. The total power consumption is $126{\mu}W$ under the conditions that the power supply voltage is 1.2 V, the output current is $10{\mu}A$, and the operating temperature is $20^{\circ}C$.

A High Swing Range, High Bandwidth CMOS PGA and ADC for IF QPSK Receiver Using 1.8V Supply

  • Lee, Woo-Yol;Lim, Jong-Chul;Park, Hee-Won;Hong, Kuk-Tae;Lee, Hyeong-Soo
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.5 no.4
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    • pp.276-281
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    • 2005
  • This paper presents a low voltage operating IF QPSK receiver block which is consisted of programmable gain amplifier (PGA) and analog to digital converter. This PGA has 6 bit control and 250MHz bandwidth, $0{\sim}20\;dB$ gain range. Using the proposed PGA architecture (low distortion gain control switch block), we can process the continuous fully differential $0.2{\sim}2.5Vpp$ input/output range and 44MHz carrier with 2 MHz bandwidth signal at 1.8V supply voltage. Using the sub-sampling technique (input freq. is $44{\sim}46MHz$, sampling freq. is 25MHz), we can process the IF QPSK signal ($44{\sim}46MHz$) which is the output of the 6 bit PGA. We can get the SNDR 35dB, which is the result of PGA and ADC at full gain mode. We fabricated the PGA and ADC and the digital signal processing block of the IF QPSK with the 0.18um CMOS MIM process 1.8V Supply.

250 mV Supply Voltage Digital Low-Dropout Regulator Using Fast Current Tracking Scheme

  • Oh, Jae-Mun;Yang, Byung-Do;Kang, Hyeong-Ju;Kim, Yeong-Seuk;Choi, Ho-Yong;Jung, Woo-Sung
    • ETRI Journal
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    • v.37 no.5
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    • pp.961-971
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    • 2015
  • This paper proposes a 250 mV supply voltage digital low-dropout (LDO) regulator. The proposed LDO regulator reduces the supply voltage to 250 mV by implementing with all digital circuits in a$0.11{\mu}m$ CMOS process. The fast current tracking scheme achieves the fast settling time of the output voltage by eliminating the ringing problem. The over-voltage and under-voltage detection circuits decrease the overshoot and undershoot voltages by changing the switch array current rapidly. The switch bias circuit reduces the size of the current switch array to 1/3, which applies a forward body bias voltage at low supply voltage. The fabricated LDO regulator worked at 0.25 V to 1.2 V supply voltage. It achieved 250 mV supply voltage and 220 mV output voltage with 99.5% current efficiency and 8 mV ripple voltage at $20{\mu}A$ to $200{\mu}A$ load current.

Desing and fabrication of GaAs prescalar IC for frequency synthesizers (주파수 합성기용 GaAs prescalar IC 설계 및 제작)

  • 윤경식;이운진
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.21 no.4
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    • pp.1059-1067
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    • 1996
  • A 128/129 dual-modulus prescalar IC is designed for application to frequency synthesizers in high frequency communication systems. The FET logic used in this design is SCFL(Source Coupled FET Logic), employing depletion-mode 1.mu.m gate length GaAs MESFETs with the threshold voltage of -1.5V. This circuit consists of 8 flip-flops, 3 OR gates, 2 NOR gates, a modulus control buffer and I/O buffers, which are integrated with about 440 GaAs MESFETs on dimensions of 1.8mm. For $V_{DD}$ and $V_{SS}$ power supply voltages 5V and -3.3V Commonly used in TTL and ECL circuits are determined, respectively. The simulation results taking into account the threshold voltage variation of .+-.0.2V and the power supply variation of .+-.1V demonstrate that the designed prescalar can operate up to 2GHz. This prescalar is fabricated using the ETRI MMIC foundary process and the measured maximum operating frquency is 621MHz.

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A Low-Voltage High-Speed CMOS Inverter-Based Digital Differential Transmitter with Impedance Matching Control and Mismatch Calibration

  • Bae, Jun-Hyun;Park, Sang-Hune;Sim, Jae-Yoon;Park, Hong-June
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.9 no.1
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    • pp.14-21
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    • 2009
  • A digital differential transmitter based on CMOS inverter worked up to 2.8 Gbps at the supply voltage of 1 V with a $0.18{\mu}m$ CMOS process. By calibrating the output impedance of the transmitter, the impedance matching between the transmitter output and the transmission line is achieved. The PVT variations of pre-driver are compensated by the calibration of the rising-edge delay and falling-edge delay of the pre-driver outputs. The chip fabricated with a $0.18{\mu}m$ CMOS process, which uses the standard supply voltage of 1.8 V, gives the highest data rate of 4Gbps at the supply voltage of 1.2 V. The proposed calibration schemes improve the eye opening with the voltage margin by 200% and the timing margin by 30%, at 2.8 Gbps and 1 V.

Bipolar Integrated Optical Link Receiver with Low Supply Voltage (바이폴라 집적된 저전압구동 광연결 수신기)

  • 장지근;이상열
    • Journal of the Microelectronics and Packaging Society
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    • v.10 no.4
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    • pp.9-14
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    • 2003
  • The new optical link receiver with data transfer rate higher than 10Mbps at the supply voltage of 1.8V was designed and fabricated using bipolar technology. The fabricated IC showed the dissipation current of 4.6mA under high level input voltage of 1.5V. The high level output voltage($V_{OH}$) and the low level output voltage($V_{OL}$) were 1.15V and 0V, respectively, for a given 10 Mbps signal which has duty ratio of 50%, $V_{IL}$(low level input voltage) of 0.5V, and $V_{IH}$(high level input voltage) of 1.5V, The duty ratio of output waveform was 52.6%. The rising time(t$_{r}$) and the falling time(t$_{f}$) were 9.5ns and 6.8ns, respectively. The propagation delay difference($t_{PHC}-t_{PLH}$) and the jitter($t_j$) were 11.7ns and 4.3ns, respectively.y.

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The Study of If Frequency Synthesizer IC Design for Digital Cellular Phone (디지털 이동통신단말기용 IF 주파수합성기 IC개발에 관한 연구)

  • 이규복;정덕진
    • Journal of the Microelectronics and Packaging Society
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    • v.8 no.1
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    • pp.19-25
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    • 2001
  • In this paper, the design and simulation results of IF frequency synthesizer section has been described. We has been used 0.8 $\mu\textrm{m}$ BiCMOS device and library of the AMS. IF frequency synthesizer section has been contained IF VCO, Phase Detector, Divide_by_8, Charge Pump and Loop Filter. IF frequency synthesizer has been shown operating voltage of 2.7~3.6 V, control voltage of 0.5~2.7 V and supply current of 11 mA. The measured results have been showed good agreement with the simulation results about supply current.

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Power Supply-Insensitive Gbps Low Power LVDS I/O Circuits (공급 전압 변화에 둔감한 Gbps급 저전력 LVDS I/O회로)

  • Kim, Jae-Gon;Kim, Sam-Dong;Hwang, In-Seok
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.44 no.6 s.360
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    • pp.19-27
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    • 2007
  • This paper presents power supply-insensitive Gbps low power LVDS I/O circuits. The proposed LVDS I/O has been designed and simulated using 1.8V, $0.18\;{\mu}m$ TSMC CMOS Process. The LVDS I/O includes transmitter and receiver parts. The transmitter circuits consist of a differential phase splitter and an output stage with the switched capacitor common mode feedback(SC-CMFB). The differential phase splitter generates a pair of differential signals which provides a balanced duty $cycle(50{\pm}2%)$ and phase difference$(180{\pm}0.2^{\circ})$ over a wide supply voltage range. Also, $V_{OD}$ voltage is 250 mV which is the smallest value of the permissible $V_{OD}$ range for low power operation. The output buffer maintains the required $V_{CM}$ within the permissible range$(1.2{\pm}0.1V)$ due to the SC-CMFB. The receiver covers a wide input DC offset $range(0.2{\sim}2.6\;V)$ with 38 mV hysteresis and Produces a rail-to-rail output over a wide supply voltage range. Beside, the designed receiver has 38.9 dB gain at 1 GHz, which is higher than conventional receivers.

Hybrid Balanced VCO Suitable for Sub-1V Supply Voltage Operation (1V 미만 전원전압 동작에 적합한 혼성 평형 전압제어 발진기)

  • Jeon, Man-Young;Kim, Kwang-Tae
    • The Journal of the Korea institute of electronic communication sciences
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    • v.7 no.4
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    • pp.715-720
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    • 2012
  • This study presents a hybrid balanced voltage controlled oscillator (VCO) circuit which is suitable for low phase noise operation at sub-1V supply voltages. Half circuits of the proposed VCO use the varactor-integrated feedback capacitors in their respective circuit. The varactor-integrated feedback capacitors further increase the negative resistance of the equivalent tank thereby ensuring stable start-up of oscillation even at the sub-1V supply voltage. In addition, this work theoretically analyses the phenomenon of the increase of the negative resistance. Simulation results using a $0.18{\mu}m$ RF CMOS technology exhibit the phase noises of -122.4 to -125.5.8 dBc/Hz at 1 MHz offset from oscillation frequency of 4.87 GHz over the supply voltages of 0.6 through 0.9 V.