• Title/Summary/Keyword: Schmitt Trigger

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DTMOS Schmitt Trigger Logic Performance Validation Using Standard CMOS Process for EM Immunity Enhancement (범용 CMOS 공정을 사용한 DTMOS 슈미트 트리거 로직의 구현을 통한 EM Immunity 향상 검증)

  • Park, SangHyeok;Kim, SoYoung
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.27 no.10
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    • pp.917-925
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    • 2016
  • Schmitt Trigger logic is a gate level design method to have hysteresis characteristics to improve noise immunity in digital circuits. Dynamic Threshold voltage MOS(DTMOS) Schmitt trigger circuits can improve noise immunity without adding additional transistors but by controlling substrate bias. The performance of DTMOS Schmitt trigger logic has not been verified yet in standard CMOS process through measurement. In this paper, DTMOS Schmitt trigger logic was implemented and verified using Magna $0.18{\mu}m$ MPW process. DTMOS Schmitt trigger buffer, inverter, NAND, NOR and simple digital logic circuits were made for our verification. Hysteresis characteristics, power consumption, and delay were measured and compared with common CMOS logic gates. EM Immunity enhancement was verified through Direct Power Injection(DPI) noise immunity test method. DTMOS Schmitt trigger logics fabricated using CMOS process showed a significantly improved EM Immunity in 10 M~1 GHz frequency range.

Wide Voltage Input Receiver with Hysteresis Characteristic to Reduce Input Signal Noise Effect

  • Biswas, Arnab Kumar
    • ETRI Journal
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    • v.35 no.5
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    • pp.797-807
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    • 2013
  • In this paper, an input receiver with a hysteresis characteristic that can work at voltage levels between 0.9 V and 5 V is proposed. The input receiver can be used as a wide voltage range Schmitt trigger also. At the same time, reliable circuit operation is ensured. According to the research findings, this is the first time a wide voltage range Schmitt trigger is being reported. The proposed circuit is compared with previously reported input receivers, and it is shown that the circuit has better noise immunity. The proposed input receiver ends the need for a separate Schmitt trigger and input buffer. The frequency of operation is also higher than that of the previously reported receiver. The circuit is simulated using HSPICE at 0.35-${\mu}m$ standard thin oxide technology. Monte Carlo analysis is conducted at different process conditions, showing that the proposed circuit works well for different process conditions at different voltage levels of operation. A noise impulse of ($V_{CC}/2$) magnitude is added to the input voltage to show that the receiver receives the correct logic level even in the presence of noise. Here, $V_{CC}$ is the fixed voltage supply of 3.3 V.

Design of a Full-Wave Rectifier with Vibration Detector for Energy Harvesting Applications (에너지 하베스팅 응용을 위한 진동 감지기가 있는 전파정류 회로 설계)

  • Ka, Hak-Jin;Yu, Chong-Gun
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2017.10a
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    • pp.421-424
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    • 2017
  • This paper describes a full-wave rectifiers for energy harvesting circuit using vibration detector. The designed circuit operates only when the vibration is detected through the vibration detector and the active diode. When there is no vibration, the comparator is turned off to prevent leakage of energy stored in the $C_{STO}$. The energy stored in the capacitor is used to drive the level converter and the active diode. The energy stored in the capacitor is supplied to an active diode designed as an output power. The vibration detector is implemented with Schmitt Trigger and Peak Detector with Hysteresis function. The proposed circuit is designed in a CMOS 0.35um technology and its functionality has been verified through extensive simulations. The designed chip occupies $590{\mu}m{\times}583{\mu}m$.

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Design of an Embedded RC Oscillator With the Temperature Compensation Circuit (온도 보상기능을 갖는 내장형RC OSCILLATOR 설계)

  • 김성식;조경록
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.40 no.4
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    • pp.42-50
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    • 2003
  • This paper presents an embedded RC oscillator which has temperature compensation circuits. The conventional RC oscillator has frequency deviation about 15%, which is caused by variation of resistors and the reference voltage of schmitt trigger from the temperature condition. In this paper, the proposed circuit use a CMOS bandgap reference having balanced current temperature coefficients as a triggering voltage of schmitt trigger. The constant current sources consist of current mirror circuit with the positive and negative temperature coefficient. The proposed circuit shows less 3% frequency deviation for variation of temperature, supply voltage and process parameters.

A Differential Current-to-Time Interval Converter Using Current-Tunable Schmitt Triggers

  • Chung, Won-Sup
    • Journal of IKEEE
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    • v.21 no.4
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    • pp.375-380
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    • 2017
  • A differential current-to-time interval converter is presented for current mode sensors. It consists of a ramp voltage generator, a current mode sensor, a reference current source, two current-tunable Schmitt triggers, a one-shot multivibrator, and two logic gates. The design principle is to apply a ramp voltage to each input of the two current-tunable Schmitt triggers whose threshold voltages are proportional to the drain current values of the current mode sensors. A proposed circuit converts a current change in the ISFET biosensor into its equivalent pulse width change. A prototype circuit built using TSMC 0.18 nm CMOS process exhibit a conversion sensitivity amounting to $726.9{\mu}s/pH$ over pH variation range of 2-12 and a linearity error less than ${\pm}0.05%$.

Compact Power-on Reset Circuit Using a Switched Capacitor

  • Seong, Kwang-Su
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.14 no.5
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    • pp.625-631
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    • 2014
  • We propose a compact power-on reset circuit consisting of a switched capacitor, a capacitor, and a Schmitt trigger inverter. A switched capacitor working with a clock signal charges the capacitor. Thus, the voltage across the capacitor is increased toward the supply voltage. The circuit provides a reset pulse until the voltage across the capacitor reaches the high threshold voltage of the Schmitt trigger inverter. The proposed circuit is simple, compact, has no static power consumption, and works for a wide range of power-on rising times. Furthermore, the clock signal is available while the reset pulse is activated. The proposed circuit works for up to 6 s of power-on rising time, and occupies a $60{\times}30{\mu}m^2$ active area.

Current-controllable saw-tooth waveform generators using current-tunable Schmitt trigger (전류-제어 슈미트 트리거를 이용한 전류-제어 톱니파 발생기)

  • Chung, Won-Sup;Lee, Myung-Ho
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.44 no.7 s.361
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    • pp.31-36
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    • 2007
  • A saw-tooth waveform generator whose frequency can be controlled with a do bias current is proposed. The generator utilizes operational transconductance amplifiers (OTA's) as switching element. It features simple and wide sweep capability The circuit built with commercially avaliable components exhibits good linearity of current-to-frequency transfer characteristics and relatively low temperature sensitivity.

Design of Low-power Clock Generator Synchronized with the AC Power Source Using the ADCL Buffer for Adiabatic Logics (ADCL 버퍼를 이용한 단열 논리회로용 AC 전원과 동기화된 저전력 클럭 발생기 설계)

  • Cho, Seung-Il;Kim, Seong-Kweon;Harada, Tomochika;Yokoyama, Michio
    • The Journal of the Korea institute of electronic communication sciences
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    • v.7 no.6
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    • pp.1301-1308
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    • 2012
  • In this paper, the low-power clock generator synchronized with the AC power signal using the adiabatic dynamic CMOS logic (ADCL) buffer is proposed for adiabatic logics. To reduce the power dissipation in conventional CMOS logic and to maintain adiabatic charging and discharging with low power for the ADCL, the clock signal of logic circuits should be synchronized with the AC power source. The clock signal for an adiabatic charging and discharging with the AC power signal was generated with the designed Schmitt trigger circuit and ADCL frequency divider using the ADCL buffer. From the simulation result, the power consumption of the proposed clock generator was estimated with approximately 1.181uW and 37.42uW at output 3kHz and 10MHz respectively.

MAGFET Hybrid IC with Frequency Output (주파수 출력을 갖는 MAGFET Hybrid IC)

  • Kim, Si-Hon;Lee, Cheol-Woo;Nam, Tae-Chul
    • Journal of Sensor Science and Technology
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    • v.6 no.3
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    • pp.194-199
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    • 1997
  • When voltage or current gets out of the magnetic sensor as it is, we have often faced the problems such as introduction of noise and loss of voltage. In order to reduce these problems, a 2 drain MAGFET operating in the saturation region and fabricated by CMOS process, the system of I/V converter, VCO with operational amplifier, and V/F conversion circuits with Schmitt Trigger are designed and fabricated in one package. The absolute sensitivity of magnetic sensor shows 1.9 V/T and the product sensitivity is $3.2{\times}10^{4}\;V/A{\cdot}T$. The characteristic of V/F conversion is very stabilized and has the value of 190 kHz/T.

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A New CMOS Voltage-Controlled Oscillator (새로운 CMOS 전압-제어 발진기)

  • Chung, Won-Sup;Kim, Hong-Bae;Lim, In-Gi;Kwack, Kae-Dal
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.25 no.11
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    • pp.1274-1281
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    • 1988
  • A new voltage-controlled oscillator based on a voltage-controlled integrator has been developed. It consists of a Schmitt-trigger and a voltage-controlled integrator, which is realized by an operational transconductance amplifier (OTA) and a grounded capacitor. The input control voltage changes the time constant of the integrator, and hence the oscillation frequency. The SPICE simulation shows that a prototype circuit, which oscillates at 12.21 KHz at 0 V, has the conversion sencitivity 2,437 Hz/V and the residual nonlinearity less than 0.68% in a control voltage range from -2 V to 2 V. It also shows that the circuit provides a temperature drift less than + 250 ppm/$^{\circ}$C for frequencies up to 100 KHz.

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