Neural Spike Detection Circuit with Amplification Method using Input DC Level Control
A neural spike detection circuit is presented, in which all the amplifiers have an open loop architecture to reduce area and current consumption fundamentally. A new method for controlling the gain of an open loop amplifier is proposed. The gains of instrumentation amplifier (IA) and multiplier are...
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| Published in | Journal of semiconductor technology and science Vol. 21; no. 3; pp. 183 - 188 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
대한전자공학회
01.06.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1598-1657 2233-4866 |
| DOI | 10.5573/JSTS.2021.21.3.183 |
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| Abstract | A neural spike detection circuit is presented, in which all the amplifiers have an open loop architecture to reduce area and current consumption fundamentally. A new method for controlling the gain of an open loop amplifier is proposed. The gains of instrumentation amplifier (IA) and multiplier are controlled by a DC level of the input. In addition, an instrumentation amplifier (IA) includes a compensation circuit against the fabrication process corners to prevent amplification failure. The compensation circuit detects and adds threshold voltage variations in the compensation feedback loop. The circuit is fabricated using the standard 0.18 μm CMOS process. Changing the DC level at the IA input results in the amplification gain increase up to 650 V/V. The nonlinear amplification control capability of the multiplier is verified as the DC input level changes. The minimum detectable amplitude of neural spike is 100 µVpk. The overall power consumption is 1.4 µW. Integrated input-referred noise is measured to be 7.1 μVrms in a frequency range of 100 Hz to 10 kHz. KCI Citation Count: 0 |
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| AbstractList | A neural spike detection circuit is presented, in which all the amplifiers have an open loop architecture to reduce area and current consumption fundamentally. A new method for controlling the gain of an open loop amplifier is proposed. The gains of instrumentation amplifier (IA) and multiplier are controlled by a DC level of the input. In addition, an instrumentation amplifier (IA) includes a compensation circuit against the fabrication process corners to prevent amplification failure. The compensation circuit detects and adds threshold voltage variations in the compensation feedback loop. The circuit is fabricated using the standard 0.18 μm CMOS process. Changing the DC level at the IA input results in the amplification gain increase up to 650 V/V. The nonlinear amplification control capability of the multiplier is verified as the DC input level changes. The minimum detectable amplitude of neural spike is 100 µVpk. The overall power consumption is 1.4 µW. Integrated input-referred noise is measured to be 7.1 μVrms in a frequency range of 100 Hz to 10 kHz. KCI Citation Count: 0 |
| Author | Jong Pal Kim |
| Author_xml | – sequence: 1 givenname: Jong Pal surname: Kim fullname: Kim, Jong Pal |
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| Keywords | implantable device IA Electroceuticals instrumentation amplifier neural spike |
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| Title | Neural Spike Detection Circuit with Amplification Method using Input DC Level Control |
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