Design of DPSK modulator, demodulator and power telemetry for Epi-retinal and neural prostheses

机译：基于视网膜和神经假体的DPSK调制器，解调器和功率遥测设计

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The simulation of a DPSK modulator, demodulator and power telemetry for Epi-retinal and neural prostheses is presented in this paper. The technique adopted in this method is DPSK telemetry system with a 22 MHz input frequency. A quad level power telemetry system is to generate high and low voltage outputs to the stimulators. To add flexibility to the stimulator, each pixel has a local digital controller, which enables the stimulator IC to generate 256 parallel stimulations with various pulse widths and amplitudes. The proposed retinal stimulator circuit is designed in 180nm technology using cadence virtuoso analog design environment. The DPSK transmitter, DPSK receiver and power telemetry consumes 93.7μW, 98.3μW, 8.554μW respectively at 1.8V and area occupied for the transmitter and the telemetry is 0.00113mm and 0.000648 mm.

机译：本文介绍了对外部视网膜和神经假体的DPSK调制器，解调器和功率遥测的模拟。本方法采用的技术是具有22 MHz输入频率的DPSK遥测系统。四级功率遥测系统是为刺激器产生高低电压输出。为了向刺激器增加灵活性，每个像素具有局部数字控制器，其使得刺激器IC能够产生具有各种脉冲宽度和幅度的256并行刺激。所提出的视网膜刺激电路采用180nm技术设计，使用Cadence Virtuoso模拟设计环境。 DPSK发射器，DPSK接收器和功率遥测分别消耗93.7μW，98.3μW，分别为1.8V，8.554μW，为发射器占用，遥测为0.00113mm和0.000648 mm。

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《International Conference on Electronics and Communication Systems》|2015年||共5页
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Moni D.Jackuline; George Saju;
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中图分类微电子学、集成电路（IC）;
关键词
Differential Phase Shift Keying (DPSK); System on Chip (SoC);

机译：差分相移键控（DPSK）;芯片系统（SOC）;

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Design of DPSK modulator, demodulator and power telemetry for Epi-retinal and neural prostheses

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