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Charge Measurement Using Commercial Devices Jinyuan Wu, Zonghan Shi For CKM Collaboration. Jan. 2003.

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Presentation on theme: "Charge Measurement Using Commercial Devices Jinyuan Wu, Zonghan Shi For CKM Collaboration. Jan. 2003."— Presentation transcript:

1

2 Charge Measurement Using Commercial Devices Jinyuan Wu, Zonghan Shi For CKM Collaboration. Jan. 2003

3 Introduction PMT Q AD6644 FPGA Integrator HP1662C

4 AD6644 FPGA Integrator(1) AD8055 Input Pulse EPC2LC20 Integrator (2) OPA660 To Analyzer The Circuit Board Optical receiver SLC-25-4 Transceiver TLK1501

5 All test equipments

6 Outline AD6644. Integrator circuit (1). ADC output. Optical Transmission. Integrator circuit (2).

7 Commercial ADC: AD6644 The AD6644 is a high speed, high- performance, monolithic 14-bit analog- to-digital converter. Current FPGA technology is used in our tests. The sample rate in our tests is 35 MHz or the sample time is 28.5ns. The guaranteed sample rate is 65 MSPS.

8 Integrator for ADC [1] +2.5V GND Input Pulse 100pf 36.5k _ + AD8055 51 OUTPUT The output will send to AD6644 as a input signal. It is a traditional integrator. T=RC=36.5k x 100pf=3.65us=128 x 28.5ns

9 Input Pulse Output

10 Input Pulse Output

11 Digital Process of AD6644 Output Using FPGA hardware to find charge. ADCADCQ SUB ABS OR AND Higher Bits DIFF D D Simple Zero Suppression Algorithm = Charge

12 DIFF = Charge ADCQ Data from HP 1662C Logic Analyzer

13 ADCQ

14 Charge

15 The Stability of AD6644 256 D ABS EN R (RESULT) SUB D D (DATA FROM AD6644)  Above circuit is used to produce the mean of absolute difference. DC input is sent to AD6644.

16 Data From HP 1662C Logic Analyzer Result ADCQ

17 The Mean of Absolute Difference

18 ADCQ ADC Output of DC Input

19 Standard Deviation

20 Optical Transmission The ADC test board has same interface as the QIE test board. Data have been successfully transmitted to Lab 6 station. A simpler test station is being built at WH14W.

21 DATA PROCESS BY USING DATA FROM LAB_6

22 Integrator for ADC [2] GND Input Pulse GND 51 150 GND 51 150 17 OUTPUT 100pf 36.5k 5V 5 6 3 8 2 OPA660 Operational Amplifier & Buffer +1 Similar as Ken Nelson’s design except the omission of the reset circuits.

23 Input Pulse Output

24 Input Pulse Output

25 Thanks END

26 Input Pulse Output Integrator (1)

27 Input pulse Output Integrator (2)

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