Anode Front End Electronics current status

(presented by N. Bondar, PNPI/CMU)
EMU meeting at Fermilab, Sep. 8-9, 2000

1. Anode Amplifier Discriminator chip (CMP16_F) specifications.
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Specified for design Implemented in CMP16_F
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Used technology - AMI 1.5u BiCMOS
Amplifier input noise 0.5fC@Cin=0 pF 0.7fC@Cin=0 pF
1.7fC@Cin=200 pF 1.5fC@Cin=180 pF
Shaper peaking time 30 ns 40 ns
Shaped waveform Semi-gaussian with two exponent tail cancellation
Transfer function (gain) 5 mV/fC 9 mV/fC
Two threshold discriminator High threshold used as ENABLE.
Low threshold zero-crossing discriminator
driven by a constant fraction shaped pulse
High level threshold Adjustable 0 - 500 mV Adjustable 0 - 100 fC
Output pulse width - Input pulse over the threshold
~ 80 ns (average)
Discriminator slewing time <3 ns <3 ns
Initial delay - 100 ns
Dead time - 350 ns
Minimum stable threshold - 5 fC (on bench)
Threshold temperature variation - -0.5fC/degree C (preliminary)
Delay temperature variation - 0.2 ns/degree C (preliminary)

Operational voltage - 4.5 - 5.5 V
Power consumption 200 mW/channel 35 mW/channel
Package - QFP 80 - (Plastic Quad Flat Pack)
14 mm x 20 mm , 80 pins,
0.8 mm pin pitch

2. Anode Amplifier Discriminator chip (CMP16_F) current status.
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CMP16_F chip received in April 11.
90 chips was received in that time and 160 chips more in May. Total - 250 chips.
First 90 chips was assembled on AD16 boards and carefully tested with the Test Stand.
All results are placed on CMU web pages.
Statistic: -initially broken chips - 2 out of 90
-most of chips match specification
-the chip parameters are pretty consistent
Resume - 1.5 u rules more stable and reliable than previous 1.2 u.
These chips used for:
- supplied 3 FAST sites with AD16 boards - 72
- Rad. test - 10
- broken during test on chamber - 3
- spare - 2
Additional 160 chips - assembled on AD16 board. Just received from company, not tested yet.
- 100 chips - for steady state test
- 60 chips spare .

3. CMP16_F chip problem.
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CMS16 Chip corresponds to the initial specification.
Only one problem - after switching to the new design rules (1.5u)
the chip became slower the output pulse waveform overshooting
increased from 5% up to 30% . Dead time increased from 180ns to 350ns.
The reason of this changes - increased parasitic capacitance (factor 2)

That is an easy correctable problem.
According simulation there is possibility to go back to initial waveform.

4. Anode Front-End Board (AFEB) AD-16 specification
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Board dimension 2.8" x 3.075" x 0.625"
Input connector strip socket, two rows, 34 contacts
Inputs DC isolated
Input signal Negative current pulse
min. detectable charge 5 fC
max. detectable charge 1000 fC
max. allowed charge 10 uC

Output connector 40-pin header with polarized key
Outputs current source LVDS compatible (1.5 mA)

Threshold control voltage 0 - 1.7 V
0 V- corresponds to maximum threshold
Input test pulse: negative, 0 to -2 V
20 ns rise time
> 2 us pulse width
0.25 fC/mV transfer function
110 Ohm termination

Power supply voltage +5.5 V
+6.0 V maximum
Current 0.09 A @+5.5~V
Power consumption 495 mW total
31 mW per channel
Remote power switch TTL level high -on / low -off

5. Anode Front-End Board integration issues.
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AD16 is designed for direct connection to a protection board on the chamber. The board
sticks out of the side of chamber via a slot in the CSC side panel. A special bracket is attached
to the panel next to the slot to fix the board and provide additional grounding between the board
and the chamber. All AD16 boards on the chamber will be covered by an aluminum cover for additional
shielding and mechanical protection. All mechanical drawings are
made by Vladislav Razmyslovich.

The AFEB - ALCT cables (halogen free) are grouped into sets of different lengths to
accommodate the different distances between sets of AD16 boards (3 boards per column) and the ALCT.
They have strain relief on both ends. Each type of CSC has its own cable layout and individual cable
sets. First issue of drawings for the cable assembly is ready thanks of TD help. Galogen free
cable have been received. First samples of new cables are ready.

6. CMP16_F chip and AD16 board reliability test (Proposal).
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Problem to solve:
-estimate burn-in test time duration (Mil. Spec.- 360 hours @ 125 C)
-estimate long term reliability for AD16 board (Mil. Spec. - 1000 hour @125 C)
Test performance and setup:
100 AD16 boards powered and pulsed and placed in an oven
under 100 C for long term running 2000 -7000 (?) hours.
Test procedure:
Weekly the board must be taken out and tested.
A regression curve will be plotted.
Test will be finished when we get 50% of dead channels.

Equipment:
Heavy duty oven
Power supply +5.5V 10A
Pulse generator

7. Delay chip DEL16 specification.
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Used technology AMI 0.5u CMOS
Input signal level LVDS standard
Output signal 3.3 V CMOS
Output pulse width 40 ns (adjustable with an external current)
Delay minimum 20 ns
Delay step DT 2 ns (adjustable with an external current)
Number of delay steps N 15 maximum
Delay function 20 ns+N*DT
Delay nonlinearity DT/2

Delay control interface serial

Control interface signal specifications:
CLRB Set delay to zero
ChSB Select chip to download delay data.
Data is fixed inside the chip at the end of the ChSB pulse.
CLC Clock pulses
D_IN Input data
D_OUT Output data pattern

Power supply voltage 3.3 V

Chip package QFP 64 10 x 10 (Plastic Quad Flat Pack)
10 mm x10 mm, 64 pins, 0.5 mm pin pitch

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bondar@fnal.gov
Last modified: Sep 12 12:00:00 CST 2000