physics of compressed baryonic matter 12 th cbm collaboration meeting
DESCRIPTION
Physics of Compressed Baryonic Matter 12 th CBM Collaboration Meeting. R&D ON MICRO-CABLES FOR BABY SENSOR RADIATION TEST MODULE. JINR, Dubna, Russia. October 13 - 18, 2008. Scientific Research Technological Institute of Instrument Engineering Kharkov, Ukraine. - PowerPoint PPT PresentationTRANSCRIPT
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Physics of Compressed Baryonic Matter12th CBM Collaboration Meeting
R&D ON MICRO-CABLES R&D ON MICRO-CABLES
FOR BABY SENSOR FOR BABY SENSOR
RADIATION TEST RADIATION TEST
MODULEMODULE
October 13 - 18, 2008October 13 - 18, 2008JINR, Dubna, Russia
Scientific Research Technological Institute of Instrument Engineering Kharkov, Ukraine e-mail: [email protected]
2e-mail: [email protected]
DEMONSTRATOR 0-b BABY SENSOR RADIATION TEST MODULE
Dubna, October, 2008
4. LEMO connectors – 4 pcs4. LEMO connectors – 4 pcs5. Flexible sensor cables – 4 pcs5. Flexible sensor cables – 4 pcs6. SMD resistors 1MΩ6. SMD resistors 1MΩ on flex mounts – 4 pcson flex mounts – 4 pcs7. Jumpers for bias line – 4 pcs7. Jumpers for bias line – 4 pcs
Test module consist of: Test module consist of: 1. Baby sensor CBM01B2 – 1 pcs1. Baby sensor CBM01B2 – 1 pcs2. Flexible-rigid board – 1 pcs2. Flexible-rigid board – 1 pcs3. ERNI connectors3. ERNI connectors on flex mounts – 8 pcson flex mounts – 8 pcs
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CONNECTING CIRCUITOF MODULE
Schematic viewof strip to connectors
connectionFront side Back side
e-mail: [email protected], October, 2008
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FLEXIBLE BOARD
MaterialMaterial: : foiled dielectric FDI-A-50
Sensor cableSensor cable bonding area :bonding area :Pitch= Pitch= 300 300 um;um;Width of pads Width of pads == 200 200 um.um.
ERNI-flex-mountERNI-flex-mount bonding area :onding area :Pitch= Pitch= 635 um;635 um;Width of pads =Width of pads = 500 500 um.um.
Polyimide layerThickness 20 um
Aluminum layerThickness 30 um
e-mail: [email protected], October, 2008
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SENSOR CABLES
Technologically zone
Testing zoneTesting zone
Work zone
MaterialMaterial: : foiled dielectric FDI-A-24
Sensor bonding Sensor bonding area:area:Pitch= Pitch= 101,4 101,4 um;um;Width= Width= 34 um.34 um.
Board bonding Board bonding area:area:Pitch= Pitch= 300 300 um;um;Width= Width= 80 um.80 um.
Polyimide layerThickness 10 um
Aluminum layerThickness 14 um
e-mail: [email protected], October, 2008
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TESTING OF CABLES
e-mail: [email protected], October, 2008
The Sensor cable design provided 100% automatically test (shorts, traces breaks) before assembly with applying of a standard contact device for testing Contact device
on the basis of Socket IC51-4364
Sensor cablesin the frame ТАВ-70
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FLEX-MOUNTSFOR SMD & ERNI CONNECTORS
Board bonding Board bonding area:area:Pitch= Pitch= 300/635 300/635 um;um;Width= Width= 100 um.100 um.
Polyimide layerThickness 20 um
Aluminum layerThickness 30 um
Ni + Sn-Bi layerThickness 3+8 um
e-mail: [email protected], October, 2008
MaterialMaterial: : foiled dielectric FDI-A-50
Dual row male connector: type BERNI 114805 model (68 pins)
Resistors (1MΩ)
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MODULE ASSEMBLING – PART 1ASSEMBLING OF SENSOR WITH CABLES
N - side P - side
e-mail: [email protected], October, 2008
1. Ultrasonic bonding of Flexible cables to Sensor (N-side):
(128 traces + 2 bias) x 2 = 260 bonds
2. Bonds protection (Glue EpoTec T7110)
3. Rotation of sensor
4. Ultrasonic bonding of Flexible cables to Sensor (P-side): (128 traces + 2 bias) x 2 = 260 bonds
5. Bonds protection (Glue EpoTec T7110)
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MODULE ASSEMBLING – PART 2ASSEMBLING OF FLEXIBLE-RIGID BOARD
e-mail: [email protected], October, 2008
1. Gluing of “Balconies” to Rigid board (Glue Araldite2011)
2. Gluing of Flexible board to Rigid board (Glue UP10-14-2)
3. Mounting of SMD on flex-mounts to Flexible-rigid board.
US-bonding: 6 x 4 = 24 bonds and bonds protection (Glue EpoTec T7110)
4. Mounting of ERNI on flex-mounts to Flexible-rigid board. Gluing, US-bonding: 64 x 8 = 512 bonds, soldering and bonds protection (Glue EpoTec T7110)
“Balconies”Trough windowfor sensor mounting
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MODULE ASSEMBLING – PART 3MOUNTING OF SENSOR ASSEMBLY TO BOARD
e-mail: [email protected], October, 2008
1. Soldering of LEMO connectors to Flexible-rigid board.
2. Mounting of Sensor assembly to Flexible-rigid board. Gluing (Glue Araldite2011), US-bonding: 130 x 4 = 520 bonds and bonds protection (Glue EpoTec T7110)
As a result of activity were manufactured:1 technological and2 working modules.
(Total of bonded connections at one module 1600)
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TECHNOLOGICAL FEATURES OF ASSEMBLY
Bonds quality
0
2
4
6
8
1 1,2 1,4 1,6 1,8 2 2,2 2,4 2,6
Power
Po
ol
str
en
gth
, g
ram
T=10
T=20
T=30
T=40
T=50
T=60
Bonds quality
0
2
4
6
8
10
1 1,2 1,4 1,6 1,8 2 2,2 2,4 2,6
Power
Po
ol
str
en
gth
, g
ram
T=10
T=10
T=30
T=40
T=50
T=60
e-mail: [email protected], October, 2008
Three types of wedges (Gaiser Tool )for single-point TAB bonding:- Cables to sensor – GT1183-01710B;- Cables to board – GT1183-02205B;- Flex-mounts to board – GT1183-04010B.
Bonding of Cable to Sensor (N-side)
Bonding of Cable to Sensor (P-side)
Bonding of Cable to Flexible-rigid board
Pool strength:- Cables to sensor (N-side): 6-7 gram ;- Cables to sensor (P-side): 7-8 gram ;- Cables to board: 10-11 gram.
Bonds quality
02468
101214
1 1,5 2 2,5 3 3,5 4 4,5 5 5,5 6Power
Po
ol
stre
ng
th,
gra
m
T=10
T=20
T=30
T=40
T=50
T=60
T=70
T=80
T=90
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TEST MODULE FOR CBM01B2 BABY-SENSOR RADIATION TEST
Front side Back side
e-mail: [email protected], October, 2008
We hope, that the experience, acquired by us, at development of a design, improvement of assembling technique and manufacture of test module on the basis of flexible-rigid boards will be useful for collaboration in the future for next investigations of baby sensors for CBM and NICA.
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ACTIVITY ON THE DEMONSTRATOR Nr.1SELECTION OF VARIANT
e-mail: [email protected], October, 2008
Conceptional design of the mechanics of the CBM STSladder (for Demonstrator Nr.1) offered by S.Igolkin
Option 1:“Old”
Option 2:“Angle tiling”
Option 3:“Flat tiling”
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OPTION 3:ADVANTAGES AND LIMITATION
e-mail: [email protected], October, 2008
In our opinion, from the point of view of usage the flexible aluminium – polyimide cables and manufacturability of Modules & Ladders assemblies, most reasonable looks Option 3 “Flat Tiling”- with flat arrangement of sensors with overlapping, but without a bend of a cable.
Limitations for Option 3:
- The gap between sensors for the safe passing of a cables: The gap offered on the drawing 0,5 mm is reasonable.
- The gap between sensors and frame: The gap offered on the drawing also is reasonable (minimum gap 2mm at placing one cable; maximum gaps of 5,2 mm and 4,4 mm at placing seven cables).
-The gap between sensors for in Module : The gap offered on the drawing 0,5 mm. For determination of gap between sensors in Module (the connection of sensors by daisy-chain cables) it is necessary to select variant of strip arrangement in a sensor (for both sides).
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SENSOR TOPOLOGYPROPOSAL
e-mail: [email protected], October, 2008
From the point of view of further assembly of sensors in modules, the optimal variant would be changing of strip rotation: from 15 on Р-side and 0 on N-side to 7,5 on both sides .Thus width of bonding contact pads is necessary to reduce from 80um up to 60um, that will allow to arrange bonding contact pads in parallel to sides of a sensor. It considerably will simplify further assembly, and also will allow to utilize identical cables for N- and P-sides with straight lines. In case of arrangement of contact pads with angles 0 and 15 will be necessary to use one cable with straight lines and second - with
rotated lines 15(that not manufacturability at pitch of lines 50-60um .
Besides the adjustment of cables with a sensor on rotated pads is more difficult than on pads which are placed parallel to sensor side.
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Kind of connections of Daisy-chain cables to sensor (Demonstrator Nr.1)
e-mail: [email protected], October, 2008
Variant of commutation for sensors with 7.5 and 7.5 degrees strip rotation.
TAB-bonding
(Pitch 60um)
Sensorbonding area
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Kind of connections of Analog cables to FEB (Demonstrator Nr.1)
e-mail: [email protected], October, 2008
Analog cablebottom layer
Analog cabletop layer
Output:Pitch 50.7 um(two rowsat 101.4um)
Kind of connection with using of pitch-adapter will ensure fan-in of Analog cable traces pitch from 120 microns to chip pads pitch 50 microns. In this case the Analog cable can be TAB-bonded to pitch-adapter pads; and the chips can be wire-bonded to pitch-adapter pads.
TAB-bonding
(Pitch 120um)
Wire-bonding
(Pitch 50.7um)
Input:Pitch 60 um(two rowsat 120um)
Pitch-adapter
Sensor
Double-deck analog cable
Front-End Board
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TYPES OF FLEXIBLE CABLESFOR DEMONSTRATOR NR.1
e-mail: [email protected], October, 2008
Width of trace 20 20 -- 3030 um um Pitch of trace 660 0 umum Quantity of traces 1024 1024 (+bias?)(+bias?)
Demonstrator Nr.1 will need development of following flexible cables:1. Daisy-chain cable: 2 types;2. Analog cable: min 16 types (or 32 types).
Daisy-chain cable
Material:foiled dielectric FDI-A-24 thickness: of Al layer 12 - 14 um of polyimide layer 10 um
Sensor bonding area
Hybrid bonding area (adapter?)
Analog cable
Width of trace 4 400 um um Pitch of trace 120 um 120 um
Quantity of traces 512 (+bias?)512 (+bias?)
Material: foiled dielectric FDI-A-20 thickness: of Al layer 10 um of polyimide layer 10 um
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PROBLEMS AND TASKS
e-mail: [email protected], October, 2008
1. Select and agree of sensor topology.2. Select and agree of ladder arrangement.3. Select and agree of connection to FEB.
4. Development and investigation of technological processes for Module & Ladder assembling. 5. Development of flexible cables design.
6. Status of assembling sites for Demonstrator Nr.1?7. Status of test equipment for testing of module components?