Dr. George Engel VLSI Design Research Laboratory Dr. Engel Room 3047.
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Transcript of Dr. George Engel VLSI Design Research Laboratory Dr. Engel Room 3047.
Dr. George EngelVLSI Design Research Laboratory
Dr. Engel
Room 3047
The lab is well equipped with two SUN workstations, two HP workstations, a personal computer, several million dollars worth of CAD software, a large HP plotter, and a wide variety of test equipment including a modest setup for probing microchips.
VLSI Design Research Laboratory
Room 3047
Typical IC Fabrication Costs
IC prototype for a local company!
We did it all!
BECS Technolgy, Inc.
Dr. Brad NobleDr. George EngelPranay Koka
Integrated Circuit (IC) Design
Credit card reader IC for Magtek
Magneprint
Magnetic fingerprinting!
HINP16C (Heavy-Ion Nuclear Physics, 16Channel) is a 16 channel integrated circuit (IC) for use in a series of experiments in low- and intermediate-energy nuclear physics. The IC is fabricated in the AMIS 0.5 m, N-well, double-poly, triple-metal, high-resistance C5N process through MOSIS. The die is 6 mm x 6 mm.
HINP IC
Need for HINP32C Need for high density signal
processing in low and intermediate energy nuclear physics community is widespread
No commercial chip was found to do exactly what we wanted. Necessary for the “experimenter” to be in the “designer’s seat”
Timing, self-triggering, and on chip sparsification non-existent or inadequate
Gain ranges beyond 50 MeV not available
Channel Block Diagram
time (Volts)
q (Coulombs)
energy (Volts)CSA
Slow shaper Peak sampler
Pseudo CFD
TVC
Reset Logic
reset
Sample Applications Spectroscopy of low lying particle unstable
states by resonance decay correlation techniques
Inverse (d,p) scattering experiments designed to study shell structure and pairing in n-rich nuclei
Inverse (p,d) reactions examining the n single particle structure of secondary unstable beams
Particle-particle correlation experiments at intermediate energy designed to refine temperature determinations and to image source characteristics
Si arrays for detecting particles and CZT and Ge arrays for detecting ray’s.
Wild Divine: The Game
Biofeedback!
Wild Divine: The Game
Biofeedback!
Wild Divine: The Game
U 1 2
I N A 3 2 6
-V I N2 +V I N3
V -4
V O6
V +7
R E F5
R G1
R G8
R 6 0 2 0 0 K
R 6 51 0 . 0 K
C 4 73 . 3 u F
12
R 4 89 7 . 6 K
G U S B
G U S B
G U S B
C 3 94 7 0 p F
12
Gain set to 0.97 Gain set to 2.0
C 4 03 . 3 u F
12
R 6 44 . 9 9 K
R 5 14 . 9 9 K
TP 1 42 . 5 V
1
R 5 21 0 . 0 K
TP 1 5E D R T1
1
TP 1 3A _ E D R
1
0.1%
0.1%
R 6 21 0 M
U 1 1
I N A 3 2 6
-V I N2 +V I N3
V -4
V O6
V +7
R E F5
R G1
R G8
R 4 91 0 M
G=2(R2)/(R1)
(R1)
(R2)
R 4 51 0 0 K
C 3 84 7 0 p F
12
R 5 9 1 0 0 K
J S 1
M D I N _ 5 -s h -R2 M J -1 5 1 3 A 1 1 0
3564
21
7+-0.2%
H R _ R e c e iv e
H R _ L E D _ D riv e
C 4 40 . 1 u F
12C 4 5
0 . 1 u F
12
A n a lo g _ E D R
R 6 34 . 9 9 K
R 5 04 . 9 9 K
No Connect
Tit le
S ize D o c u m e n t N u m b e r R e v
D a t e : S h e e t o f
R E V . 1 2 . 3
AN AL OG ED R C IR C U IT D IAGR AM
HE A LING RHY THM S
B
1 4S u n d a y , A u g u s t 0 3 , 2 0 0 3
C 5 21 u F
G E D R
G U S B
G E D R
G E D R
G E D R G E D R G E D R G E D R G E D R G E D R G E D R
R 4 21 0 . 0 K
R 4 11 0 . 0 K
2 . 5 _ V R e f
E D R _ 3 _ 3
G E D R
U 1 0
L M 3 1 7 / S O
V I N1
A D J4
V O U T2
V O U T3
V O U T6
V O U T7
G E D RG E D R
C 2 90 . 0 1 u F
12
C 3 61 u F
12 R 5 7
2 3 7R 5 83 9 2
C 3 71 u F 1
2
G E D R
R 3 91 0 . 0 K
C 3 10 . 0 1 u F
12
E D R _ 2 _ 5
R 3 81 0 . 0 K
U 8R E F 3 0 2 5
GN
D3
V I1
V O2
C 3 40 . 4 7 u F
12
3 . 3 _ V E D R
G E D R
V C C
C 4 61 0 u F
C 4 21 0 0 u F
12
R 3 6
1 0
EDR and HR sensor connector
D 4B Z X8 4 C 5 V 6 / S O T
13
G E D R
D 3B Z X8 4 C 5 V 6 / S O T
13
C 3 00 . 0 1 u F
12
R 4 71 0 . 0 K
E D R _ S TG _ 1
R 4 61 0 . 0 K
This information is proprietary and copyright C2002 by Healing Rhythms.
Note: Ground and Power routing critical on EDR and HR pages, See Engineer.This information is proprietary and copyright C2002 by Healing Rhythms.
3 . 3 _ V E D R3 . 3 _ V E D R
R65 CLOSE TOU9
C49, C50, C51 CLOSE TO U8
R63 CLOSE TOU7
R67 CLOSE TOU11
G H R
solid tant , 0.1 or 0.01 uF ceramic
R 2 61 0 R 1 5
1 0
TP 7H R o f f s e t
1
C 1 60 . 0 1 u F
12
H R _ R e c e iv e
H R _ L E D _ D riv e
G U S B
G U S B
A n a lo g _ H e a rt _ R a t eTP 3H R _ 1
1
TP 2A _ H _ R
1
Vref1
G H R
G H R
Vref2
C 1 90 . 0 1 u F
12
G U S B G H R
G H R
G H R
G H R
C 6D N P
12
R 40
C 2 00 . 1 u F
R 3
D N P
G H R
H L E D
G H R
Tit le
S ize D o c u m e n t N u m b e r R e v
D a t e : S h e e t o f
R E V . 1 2 . 3
AN AL OG H EAR T R ATE C IR C U IT D IAGR AM
HE A LING RHY THM S
B
2 4S u n d a y , A u g u s t 0 3 , 2 0 0 3
A n a lo g _ 3 . 3 V
C 41 0 u F
12
C 5
1 u F
12
R 12 3 7R 9
2 3 7
G H R
V C C
C 1 84 7 u F
12
C 1 54 7 u F
12
R 2 81 2 1
Q 1M M B T3 9 0 4
32
1
Q 2M M B T3 9 0 4
32
1
R 2 01 0
C 1 04 7 u F
12
C 2 60 . 1 u F
12
C 1 1
1 u F
1 2
C 90 . 1 u F
1 2
+
-
U 6 B
O P A 2 3 3 6 E A / 2 5 0
57
84
6
+
-
U 6 AO P A 2 3 3 6 E A / 2 5 0
31
84
2
R 2 71 0 0 K
R 1 92 . 0 0 K
R 3 41 0 0
R 1 81 2 4 K
R 3 31 0 . 0 K
R 3 21 0 . 0 K
C 2 40 . 1 u F
12
C 1 7
1 u F
1 2
C 80 . 1 u F
1 2
+
-
U 5 B
O P A 2 3 3 6 E A / 2 5 0
57
84
6
+
-
U 5 AO P A 2 3 3 6 E A / 2 5 0
31
84
2
R 2 51 0 0 K
R 1 71 . 8 2 K
R 3 11 0 0
R 1 61 2 4 K
C 71 0 u F
G H R
C 2 50 . 1 u F
G H R
-
+
U 1 A
L M 2 9 0 3
2
31
84
R 5
2 0 0
D 2
D N SD N S
21
G U S B
V R C
V C C
C 3
0 . 0 1 u F
1 2
R69 CLOSE TO U2
H R _ 3 _ 3
R 1 11 0 . 0 K
R 81 0 . 0 K
V C C
C 3 30 . 0 1 u F
12
G U S B
R 1 21 0 . 0 K
R71 CLOSE TO U1
C 3 20 . 0 1 u F
12
H R _ L E D
R 1 31 0 . 0 K
Note: Power and Groun routing critical, see engineer
Note: Vref 1 & 2 require heavy traces
R2 AND C6 POPULATED FOR uC LEDCONTROL, OR R3 POPULATED FORANALOG LED CONTROL
C52, C53 CLOSE TO U8
R 7
5 . 6 K
R 65 6 K
V C C
U 2 L M 3 1 7 / S O
V I N1
A D J4
V O U T2
V O U T3
V O U T6
V O U T7