首页 » 文章 » 文章详细信息
Chinese Physics C Volume 39 ,2015-05-01
Application of the DRS4 chip for GHz waveform digitizing circuits
Yang Hai-Bo (杨海波) 1 Su Hong (苏弘) 2 Kong Jie (孔洁) 2 Cheng Ke (成科) 3 Chen Jin-Da (陈金达) 2 Du Cheng-Ming (杜成名) 2 Zhang Jing-Zhe (张惊蛰) 2
Show affiliations
DOI:10.1088/1674-1137/39/5/056101
Received 4 August 2014 Your last 10 viewed Application of the DRS4 chip for GHz waveform digitizing circuits Yang Hai-Bo (杨海波) et al 2015 Chinese Phys. C 39 056101 Experimental research on a THGEM-based thermal neutron detector Yang Lei (杨雷) et al 2015 Chinese Phys. C 39 056002 Quadrupole-octopole alignment of CMB related to the primordial power spectrum with dipolar modulation in anisotropic spacetime Chang Zhe (常哲) et al 2015 Chinese Phys. C 39 055101 Wobbling geometry in a simple triaxial rotor Shi Wen-Xian (施文娴) and Chen Qi-Bo (陈启博) 2015 Chinese Phys. C 39 054105 No-core Monte Carlo shell model calculations with unitary correlation operator method and similarity renormalization group Liu Lang (刘朗) 2015 Chinese Phys. C 39 054103 Study of different features of fission dynamics of 224Th produced in fusion reactions within a stochastic approach H. Eslamizadeh 2015 Chinese Phys. C 39 054102 Experimental spectra analysis in THM with the help of simulation based on the Geant4 framework Li Cheng-Bo (李成波) et al 2015 Chinese Phys. C 39 054001 Unified Hamiltonian model for mesons and baryons Xie Wei (谢伟) and Wang Ping (王平) 2015 Chinese Phys. C 39 053102 Probing the mass degeneracy of particles with different spins Zhang Zhen-Hua (张振华) et al 2015 Chinese Phys. C 39 053101 Related Articles New Fast Shower Max Detector Based on MCP as an Active Element The PRO1 ASIC for fast Wilkinson encoding Wideband pulse amplifier with 8 GHz GBW product in a 0.35 μm CMOS technology for the integrated camera of the Cherenkov Telescope Array Searching for charged lepton flavor violation: New results from the MEG experiment Design and test of an extremely high resolution Timing Counter for the MEG II experiment: preliminary results Baseline drift effect on the performance of neutron and γ ray discrimination using frequency gradient analysis Operation and performance of the trigger system of the MEG experiment Calibration and performance of the photon sensor response of FACT — the first G-APD Cherenkov telescope Measurement of Electron-Drift Velocity in Ar+CH4 Mixtures Using Double-Grid Method The proposed trigger-less TBit/s readout for the Mu3e experiment More Share Post to CiteUlike Post to Bibsonomy View by subject
PDF
摘要

A new fast waveform sampling digitizing circuit based on the domino ring sampler (DRS), a switched capacitor array (SCA) chip, is presented in this paper, which is different from the traditional waveform digitizing circuit constructed with an analog to digital converter (ADC) or time to digital converter. A DRS4 chip is used as a core device in our circuit, which has a fast sampling rate up to five gigabit samples per second (GSPS). Quite satisfactory results are acquired by the preliminary performance test for this circuit board. Eight channels can be provided by one board, which has a 1 V input dynamic range for each channel. The circuit linearity is better than 0.1%, the noise is less than 0.5 mV (root mean square, RMS), and its time resolution is about 50 ps. Several boards can be cascaded to construct a multi-board system. The advantages of high resolution, low cost, low power dissipation, high channel density and small size make the circuit board useful not only for physics experiments, but also for other applications.

推荐引用方式

Yang Hai-Bo (杨海波),Su Hong (苏弘),Kong Jie (孔洁),Cheng Ke (成科),Chen Jin-Da (陈金达),Du Cheng-Ming (杜成名),Zhang Jing-Zhe (张惊蛰). Application of the DRS4 chip for GHz waveform digitizing circuits. Chinese Physics C ,Vol.39(2015)

您觉得这篇文章对您有帮助吗?
分享和收藏
0

是否收藏?

文献评价指标
浏览 253次
下载全文 372次
评分次数 0次
用户评分 0.0分
分享 0次