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Ultra-low voltage cold start oscillator delay unit based on deep trap MOS tube

A delay unit, MOS tube technology, applied in electrical components, pulse processing, pulse technology, etc., can solve problems such as being unsuitable for thermoelectric energy harvesters, achieve increased sub-threshold current, increase output voltage swing, increase Effect of DC Gain

Active Publication Date: 2020-04-14
SOUTHEAST UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But it can only provide a fully self-powered solution for higher temperature differences (>10°C), not a typical solution for wearable devices
In addition, in most sub-micron CMOS processes, a self-starting ring oscillator using an inverting delay cell usually requires a supply voltage of several hundred millivolts, which is not suitable for starting a battery-less thermoelectric energy harvester. Powering Wearable Electronics

Method used

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  • Ultra-low voltage cold start oscillator delay unit based on deep trap MOS tube
  • Ultra-low voltage cold start oscillator delay unit based on deep trap MOS tube
  • Ultra-low voltage cold start oscillator delay unit based on deep trap MOS tube

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Embodiment Construction

[0014] Embodiments of the present invention will be described below in conjunction with the accompanying drawings.

[0015] Such as figure 1 Said, the present invention proposes a kind of ultra-low voltage cold start oscillator delay unit based on deep well MOS tube, comprising: PMOS tube M 1 , PMOS tube M 3 , PMOS tube M 5 And NMOS tube M 2 , NMOS tube M 4 , NMOS tube M 6 , all transistors are MOS transistors made by deep well technology, and the delay unit includes the signal input terminal V in and the output voltage terminal V out .

[0016] Among them, the PMOS tube M 1 and NMOS tube M 2 The substrate, PMOS tube M 3 and NMOS tube M 4 The substrate, PMOS tube M 5 and NMOS tube M 6 The substrates are connected respectively, and the signal input terminal V of the delay unit in Connect to the substrate of each PMOS transistor and NMOS transistor, such as figure 1 As shown, the PMOS tube M can be 1 , PMOS tube M 3 , PMOS tube M 5 And NMOS tube M 2 , NMOS tub...

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PUM

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Abstract

The invention discloses an ultra-low voltage cold start oscillator delay unit based on a deep trap MOS tube. The delay unit comprises PMOS (P-channel Metal Oxide Semiconductor) tubes M1, M3 and M5 andNMOS (N-channel Metal Oxide Semiconductor) tubes M2, M4 and M6, which are manufactured by adopting a deep trap process, wherein substrates of the M1 and M2, substrates of the M3 and M4 and substratesof the M5 and M6 are respectively connected, and a signal input end Vin of the delay unit is connected to the substrates of the PMOS tubes and the NMOS tubes; the gate electrodes of M1 and M2, the gate electrodes of M3 and M4 and the gate electrodes of M5 and M6 are respectively connected and then connected to a signal input end Vin of the delay unit, a drain electrode of M1 is connected with a drain electrode of M2 and serves as a common drain electrode X port, a source electrode of M1 is connected with a power supply, and a source electrode of M2 is grounded. Under the condition of ensuringlow input power supply voltage, the output voltage swing of the delay unit is improved, the direct-current gain of the delay unit is increased, and oscillation can be generated under lower power supply voltage.

Description

technical field [0001] The invention relates to an ultra-low voltage cold-start oscillator delay unit based on a deep-well MOS transistor, which belongs to the technical field of integrated circuits. Background technique [0002] Harvesting energy from ambient sources, such as human body temperature, is an attractive proposal to power battery-free wearable electronics. Although this proposal is feasible from an energy point of view, the initial start-up of millivolt-scale thermoelectric generators in energy-harvesting circuits remains a challenge. One way to increase this low input voltage is to use a low voltage oscillator to start a higher voltage dc-dc converter. [0003] In order to obtain a start-up signal working at a low voltage, conventional thermoelectric energy harvesters use a standard ring oscillator to generate a start-up clock signal. But it can only provide a fully self-powered solution for higher temperature differences (>10°C), not a typical solution fo...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H03K5/00
CPCH03K5/00H03K2005/00078
Inventor 吴建辉谢祖帅瞿剑周全才吴志强李红
Owner SOUTHEAST UNIV
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