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TDC in ACTEL FPGA

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TDC in ACTEL FPGA. Tom Sluijk. Hans Verkooijen. Albert Zwart. Fabian Jansen. Upgrade LHCb. After upgrade of LHCb there is no L0-Trigger. ... – PowerPoint PPT presentation

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Title: TDC in ACTEL FPGA


1
TDC in ACTEL FPGA
  • Tom Sluijk
  • Hans Verkooijen
  • Albert Zwart
  • Fabian Jansen

2
Upgrade LHCb
  • After upgrade of LHCb there is no L0-Trigger.
  • Need a TDC that can make a time stamp every Bx.
  • Radiation environment.
  • At least 32 channels.
  • About 4 bit TDC resolution to minimize the output
    data rate.

3
TDC in Actel FPGA
  • Design of TDC in ACTEL Proasic3E FPGA because of
    the radiation properties
  • Design based on the Muonlab TDC 2 channel TDC
    in Xilinx FPGA resolution of 500 ps, see
    http//www.nikhef.nl/hansvk/muonlab/.
  • The properties of the PLL in the ACTEL Proasic3E
    FPGA do not have the fancy phase shift
    possibilities compared to the Xilinx PLL, so the
    resolution will be lower.
  • First approach3 PLLs used to generate phase
    shifted 320 MHz signals of 0º, 45º, 90º and 135º
    ? bins of 780 ps. 8 ch TDC was simulated, this
    design was hard to fit. The Actel Starter Kit
    has only 2 PLLs, so this design can not be used
    for tests.
  • Second approach1 PLL at 320 MHz used to
    generate 8 phase shifted 40 MHz signals ? bins
    of 1570 ps A four channel TDC is designed.

4
TDC (second approach)
BxClock
PLL 320MHz
5
Timing Diagram

6
Chip layout
  • This part is used
  • for 4 channels

7
Test Procedures
  • The design is fitted in an A3PE1500 208 PQFP and
    programmed in the Actel Starter Kit.
  • The first test to determine the DNL
  • The onboard 40 MHz xtal oscillator is used as
    Bx Clock.
  • An asynchronous pulse generator of 10 MHz
    generates a Hit signal with a flat distribution.
  • Second test is a delay scan to determine the
    linearity
  • Pulse generator of 40 MHz supplies the Bx Clock.
  • This signal is also delayed with a switchable NIM
    delay with steps of 0.5 ns to get the Hit signal.

8
Test Setup
9
Hit Distribution
10
TDC Spectrum
11
Linearity

12
Scatter Plot ch1 vs ch2
13
Conclusions
  • A TDC with reasonable performance can be build in
    an Actel FPGA.
  • Increase of number of channels up to 32 channels
    could be possible. (see chip layout)
  • The resolution is limited by the maximum PLL
    clock (350 MHz) The increase of the resolution
    by one bit might be achieved when a second PLL
    clock of 320 MHz with a phase shift of 90 is
    used.
  • Temperature tests should be performed to check
    the stability of the design.
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