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MPPC読み出しのための汎用モジュールの開発
! ! ! ! 山中研 M1 ! 石島 直樹
2012/12/21
112年12月21日金曜日
MPPCの多チャンネル読み出し小型! (数mm2)!! ! ! ! ! ! ! ! ! !
優れたフォトンカウンティング能力!! ! ! ! ! !
低バイアス電圧(~70V)で作動する! ! ! ! ! ! ! ! !
磁場中で使える
小型故の多チャンネル化
AMPがMPPC個々に必要
Bias VoltageがSensitive!
MPPC用の多チャンネル読み出し回路の開発
(KEK open-it での共同開発)
大規模実験用にカスタマイズされたものはあるが、簡単に使える汎用的なものがほしい
テストボードは開発済み
212年12月21日金曜日
EASIROCボード
EASIROCボード(東北大学、KEK 測定器開発室)
AMP、Bias調節機能を内蔵
MPPC用汎用読み出し回路試作機
PCでデータ収集、設定調節ができる(SiTCP:KEK内田氏)
32chのMPPC読み出し
312年12月21日金曜日
新しいモジュールの開発
より使いやすく
NIMモジュール化
過電圧、過電流への対策 (EASIROCボード故障の報告多数)
より便利に
HV電源用ICを内蔵(従来は外部から供給)
ch数の増加 32ch → 64ch
HV用電流・電圧、温度モニタ等の実装
モジュール間、他機器とのDigital I/Oによる同期
EASIROCボードを改良してより使いやすい形にしたい
EASIROCボード使用者の意見も参考
412年12月21日金曜日
NIMモジュール化HOLD
CLEAR
ACCEPT
T STOP
SYNC IN
D INA1 B1
INPUT
OUTPUTBUSY
TRIG
SYNC OUT
D OUT 1
D OUT 2
ANALOGHG 1
HG 2
PROBE 1
HV
PROBE 2
SENSOR 1
SENSOR 2
A34 B34
A1 B1
A34 B34
<···>
EASIROC Module
INDICATOR
OSAKA KEKTOHOKU LAL
512年12月21日金曜日
HOLD
CLEAR
ACCEPT
T STOP
SYNC IN
D INA1 B1
INPUT
OUTPUTBUSY
TRIG
SYNC OUT
D OUT 1
D OUT 2
ANALOGHG 1
HG 2
PROBE 1
HV
PROBE 2
SENSOR 1
SENSOR 2
A34 B34
A1 B1
A34 B34
<···>
EASIROC Module
INDICATOR
OSAKA KEKTOHOKU LAL
NIMモジュール化
Digital input
Digital output
Analog I/OTo PC
MPPC IN LVDS output
612年12月21日金曜日
過電流、過電圧への対策
8bitDAC
MPPC
ASIC
ASIC内のDACにショート or 順電圧による過電流や過電圧がかかると...
壊れる!
712年12月21日金曜日
過電流、過電圧への対策
8bitDAC
MPPC
ASIC
回避
ダイオードによる保護回路
HV電流モニタ
VCC
Monitor
HV shutdownsignal
812年12月21日金曜日
12bitDAC
control V
計装用ADC
MPPC用ADC
FPGA
PC
内部電源 0~80V new!
各種モニタ new!
DigitalI/O
SiTCP
HV
EASIROC x2
8bitDAC
0~4.5V
SlowShaper
AMP
55
44
33
22
11
DD
CC
BB
AA
MPPC Load
HV
PPD_HV
MPPCハイボルインプット
HV範囲0~80V
MPPCバイアス&読み出し
Bias & Readout of MPPC
HV電源フィルタ
HV Filter
HEADER 32x32
GRM32ER72A105KA01L(定格100V)
HVフィルタの0.1Uコンデ
ンサは全て
GRM188R72A104KA35D (定格100V)
All HV filters are GRM188R72A104KA35D(Rating 100V)
Voltage range is 0 - 80V
HV
0IN
0H
V1
HV
2
HV
3
HV
4
HV
5
HV
6
HV
7
HV
8
HV
9
HV
10
HV
11
HV
12
HV
13
HV
14
HV
15
HV
16
HV
17
HV
18
HV
19
HV
20
HV
21
HV
22
HV
23
HV
24
HV
25
HV
26
HV
27
HV
28
HV
29
HV
30
HV
31
IN1
IN2
IN3
IN4
IN5
IN6
IN7
IN8
IN9
IN10
IN11
IN12
IN13
IN14
IN15
IN16
IN17
IN18
IN19
IN20
IN21
IN22
IN23
IN24
IN25
IN26
IN27
IN28
IN29
IN30
IN31
HV
1
HV
0
HV
2
HV
3
HV
4
HV
5
HV
6
HV
7
HV
8
HV
9
HV
10
HV
11
HV
12
HV
13
HV
14
HV
15
HV
16
HV
17
HV
26
HV
27
HV
28
HV
29
HV
30
HV
31
HV
18
HV
19
HV
20
HV
21
HV
22
HV
23
HV
24
HV
25
SiP
M_H
V
SiP
M_H
VS
iPM
_HV
IN[31:0]
IN[31:0]
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Thursday, February 10, 2011 C163
0.1U/100V
C163
0.1U/100V
R80
100K/2012
R80
100K/2012
R114
51R
11451
C158
0.1U/100V
C158
0.1U/100V
R85
100K/2012
R85
100K/2012
R106
51R
10651
C155
0.1U/100V
C155
0.1U/100V
R138
51R
13851
C174
0.1U/100V
C174
0.1U/100V
R86
51R
8651
R136
100K/2012
R136
100K/2012
C160
0.1U/100V
C160
0.1U/100V
R81
100K/2012
R81
100K/2012
C161
0.1U/100V
C161
0.1U/100V
R123
51R
12351
C185
0.1U/100V
C185
0.1U/100V
C171
0.1U/100V
C171
0.1U/100V
R87
51R
8751
C166
0.1U/100V
C166
0.1U/100V
C196
0.1U/100V
C196
0.1U/100V
CN
20
HIF-3B
B-64P
A-2.54D
S (H
IRO
SE
)
CN
20
HIF-3B
B-64P
A-2.54D
S (H
IRO
SE
)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
R124
100K/2012
R124
100K/2012
C187
0.1U/100V
C187
0.1U/100V
R102
51R
10251
C164
0.1U/100V
C164
0.1U/100V
R83
51R
8351
C188
0.1U/100V
C188
0.1U/100V
R143
51R
14351
R98
51R
9851
C182
0.1U/100V
C182
0.1U/100V
R110
51R
11051
R122
51R
12251
C209
0.1U/100V
C209
0.1U/100V
C148
0.1U/100V
C148
0.1U/100V
C197
0.1U/100V
C197
0.1U/100V
R112
100K/2012
R112
100K/2012
C200
0.1U/100V
C200
0.1U/100V
C179
0.1U/100V
C179
0.1U/100V
C198
0.1U/100V
C198
0.1U/100V
C149
0.1U/100V
C149
0.1U/100V
R129
100K/2012
R129
100K/2012
R134
51R
13451
C165
0.1U/100V
C165
0.1U/100V
C189
0.1U/100V
C189
0.1U/100V
R82
51R
8251
R100
100K/2012
R100
100K/2012
C195
0.1U/100V
C195
0.1U/100V
R88
100K/2012
R88
100K/2012
C201
0.1U/100V
C201
0.1U/100V
C190
0.1U/100V
C190
0.1U/100V
C152
0.1U/100V
C152
0.1U/100V
R117
100K/2012
R117
100K/2012
C168
0.1U/100V
C168
0.1U/100V
C192
0.1U/100V
C192
0.1U/100V
C206
0.1U/100V
C206
0.1U/100V
R101
100K/2012
R101
100K/2012
R139
51R
13951
R94
51R
9451
R118
51R
11851
C153
0.1U/100V
C153
0.1U/100V
C169
0.1U/100V
C169
0.1U/100V
C193
0.1U/100V
C193
0.1U/100V
C172
0.1U/100V
C172
0.1U/100V
C151
0.1U/100V
C151
0.1U/100V
R103
51R
10351
R97
100K/2012
R97
100K/2012
R111
51R
11151
C156
0.1U/100V
C156
0.1U/100V
C157
0.1U/100V
C157
0.1U/100V
C145
0.1U/100V
C145
0.1U/100V
C173
0.1U/100V
C173
0.1U/100V
C162
0.1U/100V
C162
0.1U/100V
R89
100K/2012
R89
100K/2012
R135
51R
13551
C159
0.1U/100V
C159
0.1U/100V
CN
19LE
MO
_AN
GLE
CN
19LE
MO
_AN
GLE
1
2345
C204
0.1U/100V
C204
0.1U/100V
R130
51R
13051
C176
0.1U/100V
C176
0.1U/100V
C154
0.1U/100V
C154
0.1U/100V
R144
100K/2012
R144
100K/2012
R79
100K/2012
R79
100K/2012
C175
0.1U/100V
C175
0.1U/100V
R77
22K/2012
R77
22K/2012
C170
0.1U/100V
C170
0.1U/100V
R99
51R
9951
R132
100K/2012
R132
100K/2012
R140
100K/2012
R140
100K/2012
C177
0.1U/100V
C177
0.1U/100V
R95
51R
9551
R107
51R
10751
R119
51R
11951
C167
0.1U/100V
C167
0.1U/100V
C186
0.1U/100V
C186
0.1U/100V
C205
0.1U/100V
C205
0.1U/100V
R120
100K/2012
R120
100K/2012
R128
100K/2012
R128
100K/2012
R131
51R
13151
C180
0.1U/100V
C180
0.1U/100V
C183
0.1U/100V
C183
0.1U/100V
C181
0.1U/100V
C181
0.1U/100V
R125
100K/2012
R125
100K/2012
C178
0.1U/100V
C178
0.1U/100V
R126
51R
12651
R90
51R
9051
R108
100K/2012
R108
100K/2012
R116
100K/2012
R116
100K/2012
C144
0.1U/100V
C144
0.1U/100V
R104
100K/2012
R104
100K/2012
R115
51R
11551
C194
0.1U/100V
C194
0.1U/100V
C184
0.1U/100V
C184
0.1U/100V
C143
1U/3225
C143
1U/3225
R121
100K/2012
R121
100K/2012
C208
0.1U/100V
C208
0.1U/100V
R91
51R
9151
R96
100K/2012
R96
100K/2012
R84
100K/2012
R84
100K/2012
R78
100K/2012
R78
100K/2012
C191
0.1U/100V
C191
0.1U/100V
R92
100K/2012
R92
100K/2012
C210
0.1U/100V
C210
0.1U/100V
C146
0.1U/100V
C146
0.1U/100V
R109
100K/2012
R109
100K/2012
R113
100K/2012
R113
100K/2012
C202
0.1U/100V
C202
0.1U/100V
C150
0.1U/100V
C150
0.1U/100V
R105
100K/2012
R105
100K/2012
R142
51R
14251
C147
0.1U/100V
C147
0.1U/100V
R93
100K/2012
R93
100K/2012
R127
51R
12751
ch0~31 x2
HOLD
Analog out , LVDS out
温度計 new!
MPPC64ch new!
VCC
MultiPlexer
ASIC保護回路 new!
HV電圧モニタ温度モニタ
8bit DACモニタ
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
MPPC
Loa
d
HV
PPD_
HV
MPPCハイボルインプット
HV範囲0~80V
MPPCバイアス&読み出し
Bias & Readout of MPPC
HV電源フィルタ
HV Filter
HEADER 32x32
GRM32ER72A105KA01L
(定格100V)
HVフィルタの0.1Uコンデンサは全て
GRM188R72A104KA35D (定格100V)
All HV filters are GRM188R72A104KA35D
(Rating 100V)
Voltage range is 0 - 80V
HV
0IN
0H
V1
HV
2
HV
3
HV
4
HV
5
HV
6
HV
7
HV
8
HV
9
HV
10
HV
11
HV
12
HV
13
HV
14
HV
15
HV
16
HV
17
HV
18
HV
19
HV
20
HV
21
HV
22
HV
23
HV
24
HV
25
HV
26
HV
27
HV
28
HV
29
HV
30
HV
31
IN1
IN2
IN3
IN4
IN5
IN6
IN7
IN8
IN9
IN10
IN11
IN12
IN13
IN14
IN15
IN16
IN17
IN18
IN19
IN20
IN21
IN22
IN23
IN24
IN25
IN26
IN27
IN28
IN29
IN30
IN31
HV
1
HV
0
HV
2
HV
3
HV
4
HV
5
HV
6
HV
7
HV
8
HV
9
HV
10
HV
11
HV
12
HV
13
HV
14
HV
15
HV
16
HV
17
HV
26
HV
27
HV
28
HV
29
HV
30
HV
31
HV
18
HV
19
HV
20
HV
21
HV
22
HV
23
HV
24
HV
25
SiP
M_H
V
SiP
M_H
VS
iPM
_HV
IN[3
1:0]
IN[3
1:0]
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1C16
30.
1U/1
00V
C16
30.
1U/1
00V
R80
100K
/201
2R
8010
0K/2
012
R11
451
R11
451
C15
80.
1U/1
00V
C15
80.
1U/1
00V
R85
100K
/201
2R
8510
0K/2
012
R10
651
R10
651
C15
50.
1U/1
00V
C15
50.
1U/1
00V
R13
851
R13
851
C17
40.
1U/1
00V
C17
40.
1U/1
00V
R86
51R
8651
R13
610
0K/2
012
R13
610
0K/2
012
C16
00.
1U/1
00V
C16
00.
1U/1
00V
R81
100K
/201
2R
8110
0K/2
012
C16
10.
1U/1
00V
C16
10.
1U/1
00V
R12
351
R12
351
C18
50.
1U/1
00V
C18
50.
1U/1
00V
C17
10.
1U/1
00V
C17
10.
1U/1
00V
R87
51R
8751
C16
60.
1U/1
00V
C16
60.
1U/1
00V
C19
60.
1U/1
00V
C19
60.
1U/1
00V
CN
20
HIF
-3B
B-6
4PA
-2.5
4DS
(HIR
OS
E)
CN
20
HIF
-3B
B-6
4PA
-2.5
4DS
(HIR
OS
E)
12345678910111213141516171819202122232425262728293031323334353637383940414243444546474849505152535455565758596061626364
R12
410
0K/2
012
R12
410
0K/2
012
C18
70.
1U/1
00V
C18
70.
1U/1
00V
R10
251
R10
251
C16
40.
1U/1
00V
C16
40.
1U/1
00V
R83
51R
8351
C18
80.
1U/1
00V
C18
80.
1U/1
00V
R14
351
R14
351
R98
51R
9851
C18
20.
1U/1
00V
C18
20.
1U/1
00V
R11
051
R11
051
R12
251
R12
251
C20
90.
1U/1
00V
C20
90.
1U/1
00V
C14
80.
1U/1
00V
C14
80.
1U/1
00V
C19
70.
1U/1
00V
C19
70.
1U/1
00V
R11
210
0K/2
012
R11
210
0K/2
012
C20
00.
1U/1
00V
C20
00.
1U/1
00V
C17
90.
1U/1
00V
C17
90.
1U/1
00V
C19
80.
1U/1
00V
C19
80.
1U/1
00V
C14
90.
1U/1
00V
C14
90.
1U/1
00V
R12
910
0K/2
012
R12
910
0K/2
012
R13
451
R13
451
C16
50.
1U/1
00V
C16
50.
1U/1
00V
C18
90.
1U/1
00V
C18
90.
1U/1
00V
R82
51R
8251
R10
010
0K/2
012
R10
010
0K/2
012
C19
50.
1U/1
00V
C19
50.
1U/1
00V
R88
100K
/201
2R
8810
0K/2
012
C20
10.
1U/1
00V
C20
10.
1U/1
00V
C19
00.
1U/1
00V
C19
00.
1U/1
00V
C15
20.
1U/1
00V
C15
20.
1U/1
00V
R11
710
0K/2
012
R11
710
0K/2
012
C16
80.
1U/1
00V
C16
80.
1U/1
00V
C19
20.
1U/1
00V
C19
20.
1U/1
00V
C20
60.
1U/1
00V
C20
60.
1U/1
00V
R10
110
0K/2
012
R10
110
0K/2
012
R13
951
R13
951
R94
51R
9451
R11
851
R11
851
C15
30.
1U/1
00V
C15
30.
1U/1
00V
C16
90.
1U/1
00V
C16
90.
1U/1
00V
C19
30.
1U/1
00V
C19
30.
1U/1
00V
C17
20.
1U/1
00V
C17
20.
1U/1
00V
C15
10.
1U/1
00V
C15
10.
1U/1
00V
R10
351
R10
351
R97
100K
/201
2R
9710
0K/2
012
R11
151
R11
151
C15
60.
1U/1
00V
C15
60.
1U/1
00V
C15
70.
1U/1
00V
C15
70.
1U/1
00V
C14
50.
1U/1
00V
C14
50.
1U/1
00V
C17
30.
1U/1
00V
C17
30.
1U/1
00V
C16
20.
1U/1
00V
C16
20.
1U/1
00V
R89
100K
/201
2R
8910
0K/2
012
R13
551
R13
551
C15
90.
1U/1
00V
C15
90.
1U/1
00V
CN
19LE
MO
_AN
GLE
CN
19LE
MO
_AN
GLE
1
2345
C20
40.
1U/1
00V
C20
40.
1U/1
00V
R13
051
R13
051
C17
60.
1U/1
00V
C17
60.
1U/1
00V
C15
40.
1U/1
00V
C15
40.
1U/1
00V
R14
410
0K/2
012
R14
410
0K/2
012
R79
100K
/201
2R
7910
0K/2
012
C17
50.
1U/1
00V
C17
50.
1U/1
00V
R77
22K
/201
2
R77
22K
/201
2
C17
00.
1U/1
00V
C17
00.
1U/1
00V
R99
51R
9951
R13
210
0K/2
012
R13
210
0K/2
012
R14
010
0K/2
012
R14
010
0K/2
012
C17
70.
1U/1
00V
C17
70.
1U/1
00V
R95
51R
9551
R10
751
R10
751
R11
951
R11
951
C16
70.
1U/1
00V
C16
70.
1U/1
00V
C18
60.
1U/1
00V
C18
60.
1U/1
00V
C20
50.
1U/1
00V
C20
50.
1U/1
00V
R12
010
0K/2
012
R12
010
0K/2
012
R12
810
0K/2
012
R12
810
0K/2
012
R13
151
R13
151
C18
00.
1U/1
00V
C18
00.
1U/1
00V
C18
30.
1U/1
00V
C18
30.
1U/1
00V
C18
10.
1U/1
00V
C18
10.
1U/1
00V
R12
510
0K/2
012
R12
510
0K/2
012
C17
80.
1U/1
00V
C17
80.
1U/1
00V
R12
651
R12
651
R90
51R
9051
R10
810
0K/2
012
R10
810
0K/2
012
R11
610
0K/2
012
R11
610
0K/2
012
C14
40.
1U/1
00V
C14
40.
1U/1
00V
R10
410
0K/2
012
R10
410
0K/2
012
R11
551
R11
551
C19
40.
1U/1
00V
C19
40.
1U/1
00V
C18
40.
1U/1
00V
C18
40.
1U/1
00V
C14
3
1U/3
225
C14
3
1U/3
225
R12
110
0K/2
012
R12
110
0K/2
012
C20
80.
1U/1
00V
C20
80.
1U/1
00V
R91
51R
9151
R96
100K
/201
2R
9610
0K/2
012
R84
100K
/201
2R
8410
0K/2
012
R78
100K
/201
2R
7810
0K/2
012
C19
10.
1U/1
00V
C19
10.
1U/1
00V
R92
100K
/201
2R
9210
0K/2
012
C21
00.
1U/1
00V
C21
00.
1U/1
00V
C14
60.
1U/1
00V
C14
60.
1U/1
00V
R10
910
0K/2
012
R10
910
0K/2
012
R11
310
0K/2
012
R11
310
0K/2
012
C20
20.
1U/1
00V
C20
20.
1U/1
00V
C15
00.
1U/1
00V
C15
00.
1U/1
00V
R10
510
0K/2
012
R10
510
0K/2
012
R14
251
R14
251
C14
70.
1U/1
00V
C14
70.
1U/1
00V
R93
100K
/201
2R
9310
0K/2
012
R12
751
R12
751
HV(外部)改良後モジュール
HV電流モニタ
SiTCPの一体化 new!
912年12月21日金曜日
HV電源出力ICのテスト
1012年12月21日金曜日
HV電源出力IC
LT3482 (リニアテクノロジー) 大きさ3 mm x 3 mm
光学レシーバのAPD用 90V昇圧DC/DCコンバータ
LT3482 test board
3~12V IN
0~90V OUT
モジュール内部でHV(~70V)を作る!
EASIROC board のHV電源は外部から供給
1112年12月21日金曜日
電源によるSN比の比較
SN比ソースメーター! ! 8.14±0.18
LT3482! ! ! ! 8.41±0.19
0p.eピーク
1p.eピーク
1p.eピーク − 0p.eピーク
MPPC : S10362-11-050C(400Pixel)
0p.eピーク幅
ソースメーター(Keithley2400シリーズ)
LT3482
問題なく使えそう!
1212年12月21日金曜日
LT3482の高負荷特性
HV
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
MPPC Load
HV
PPD_HV
MPPCハイボルインプット
HV範囲0~80V
MPPCバイアス&読み出し
Bias & Readout of MPPC
HV電源フィルタ
HV Filter
HEADER 32x32
GRM32ER72A105KA01L
(定格100V)
HVフィルタの0.1Uコンデンサは全て
GRM188R72A104KA35D (定格100V)
All HV filters are GRM188R72A104KA35D
(Rating 100V)
Voltage range is 0 - 80V
HV
0IN
0H
V1
HV
2
HV
3
HV
4
HV
5
HV
6
HV
7
HV
8
HV
9
HV
10
HV
11
HV
12
HV
13
HV
14
HV
15
HV
16
HV
17
HV
18
HV
19
HV
20
HV
21
HV
22
HV
23
HV
24
HV
25
HV
26
HV
27
HV
28
HV
29
HV
30
HV
31
IN1
IN2
IN3
IN4
IN5
IN6
IN7
IN8
IN9
IN10
IN11
IN12
IN13
IN14
IN15
IN16
IN17
IN18
IN19
IN20
IN21
IN22
IN23
IN24
IN25
IN26
IN27
IN28
IN29
IN30
IN31
HV
1
HV
0
HV
2
HV
3
HV
4
HV
5
HV
6
HV
7
HV
8
HV
9
HV
10
HV
11
HV
12
HV
13
HV
14
HV
15
HV
16
HV
17
HV
26
HV
27
HV
28
HV
29
HV
30
HV
31
HV
18
HV
19
HV
20
HV
21
HV
22
HV
23
HV
24
HV
25
SiP
M_H
V
SiP
M_H
VS
iPM
_HV
IN[3
1:0]
IN[3
1:0]
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ruar
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1C16
30.
1U/1
00V
C16
30.
1U/1
00V
R80
100K
/201
2R
8010
0K/2
012
R11
451
R11
451
C15
80.
1U/1
00V
C15
80.
1U/1
00V
R85
100K
/201
2R
8510
0K/2
012
R10
651
R10
651
C15
50.
1U/1
00V
C15
50.
1U/1
00V
R13
851
R13
851
C17
40.
1U/1
00V
C17
40.
1U/1
00V
R86
51R
8651
R13
610
0K/2
012
R13
610
0K/2
012
C16
00.
1U/1
00V
C16
00.
1U/1
00V
R81
100K
/201
2R
8110
0K/2
012
C16
10.
1U/1
00V
C16
10.
1U/1
00V
R12
351
R12
351
C18
50.
1U/1
00V
C18
50.
1U/1
00V
C17
10.
1U/1
00V
C17
10.
1U/1
00V
R87
51R
8751
C16
60.
1U/1
00V
C16
60.
1U/1
00V
C19
60.
1U/1
00V
C19
60.
1U/1
00V
CN
20
HIF
-3B
B-6
4PA
-2.5
4DS
(HIR
OS
E)
CN
20
HIF
-3B
B-6
4PA
-2.5
4DS
(HIR
OS
E)
12345678910111213141516171819202122232425262728293031323334353637383940414243444546474849505152535455565758596061626364
R12
410
0K/2
012
R12
410
0K/2
012
C18
70.
1U/1
00V
C18
70.
1U/1
00V
R10
251
R10
251
C16
40.
1U/1
00V
C16
40.
1U/1
00V
R83
51R
8351
C18
80.
1U/1
00V
C18
80.
1U/1
00V
R14
351
R14
351
R98
51R
9851
C18
20.
1U/1
00V
C18
20.
1U/1
00V
R11
051
R11
051
R12
251
R12
251
C20
90.
1U/1
00V
C20
90.
1U/1
00V
C14
80.
1U/1
00V
C14
80.
1U/1
00V
C19
70.
1U/1
00V
C19
70.
1U/1
00V
R11
210
0K/2
012
R11
210
0K/2
012
C20
00.
1U/1
00V
C20
00.
1U/1
00V
C17
90.
1U/1
00V
C17
90.
1U/1
00V
C19
80.
1U/1
00V
C19
80.
1U/1
00V
C14
90.
1U/1
00V
C14
90.
1U/1
00V
R12
910
0K/2
012
R12
910
0K/2
012
R13
451
R13
451
C16
50.
1U/1
00V
C16
50.
1U/1
00V
C18
90.
1U/1
00V
C18
90.
1U/1
00V
R82
51R
8251
R10
010
0K/2
012
R10
010
0K/2
012
C19
50.
1U/1
00V
C19
50.
1U/1
00V
R88
100K
/201
2R
8810
0K/2
012
C20
10.
1U/1
00V
C20
10.
1U/1
00V
C19
00.
1U/1
00V
C19
00.
1U/1
00V
C15
20.
1U/1
00V
C15
20.
1U/1
00V
R11
710
0K/2
012
R11
710
0K/2
012
C16
80.
1U/1
00V
C16
80.
1U/1
00V
C19
20.
1U/1
00V
C19
20.
1U/1
00V
C20
60.
1U/1
00V
C20
60.
1U/1
00V
R10
110
0K/2
012
R10
110
0K/2
012
R13
951
R13
951
R94
51R
9451
R11
851
R11
851
C15
30.
1U/1
00V
C15
30.
1U/1
00V
C16
90.
1U/1
00V
C16
90.
1U/1
00V
C19
30.
1U/1
00V
C19
30.
1U/1
00V
C17
20.
1U/1
00V
C17
20.
1U/1
00V
C15
10.
1U/1
00V
C15
10.
1U/1
00V
R10
351
R10
351
R97
100K
/201
2R
9710
0K/2
012
R11
151
R11
151
C15
60.
1U/1
00V
C15
60.
1U/1
00V
C15
70.
1U/1
00V
C15
70.
1U/1
00V
C14
50.
1U/1
00V
C14
50.
1U/1
00V
C17
30.
1U/1
00V
C17
30.
1U/1
00V
C16
20.
1U/1
00V
C16
20.
1U/1
00V
R89
100K
/201
2R
8910
0K/2
012
R13
551
R13
551
C15
90.
1U/1
00V
C15
90.
1U/1
00V
CN
19LE
MO
_AN
GLE
CN
19LE
MO
_AN
GLE
1
2345
C20
40.
1U/1
00V
C20
40.
1U/1
00V
R13
051
R13
051
C17
60.
1U/1
00V
C17
60.
1U/1
00V
C15
40.
1U/1
00V
C15
40.
1U/1
00V
R14
410
0K/2
012
R14
410
0K/2
012
R79
100K
/201
2R
7910
0K/2
012
C17
50.
1U/1
00V
C17
50.
1U/1
00V
R77
22K
/201
2
R77
22K
/201
2
C17
00.
1U/1
00V
C17
00.
1U/1
00V
R99
51R
9951
R13
210
0K/2
012
R13
210
0K/2
012
R14
010
0K/2
012
R14
010
0K/2
012
C17
70.
1U/1
00V
C17
70.
1U/1
00V
R95
51R
9551
R10
751
R10
751
R11
951
R11
951
C16
70.
1U/1
00V
C16
70.
1U/1
00V
C18
60.
1U/1
00V
C18
60.
1U/1
00V
C20
50.
1U/1
00V
C20
50.
1U/1
00V
R12
010
0K/2
012
R12
010
0K/2
012
R12
810
0K/2
012
R12
810
0K/2
012
R13
151
R13
151
C18
00.
1U/1
00V
C18
00.
1U/1
00V
C18
30.
1U/1
00V
C18
30.
1U/1
00V
C18
10.
1U/1
00V
C18
10.
1U/1
00V
R12
510
0K/2
012
R12
510
0K/2
012
C17
80.
1U/1
00V
C17
80.
1U/1
00V
R12
651
R12
651
R90
51R
9051
R10
810
0K/2
012
R10
810
0K/2
012
R11
610
0K/2
012
R11
610
0K/2
012
C14
40.
1U/1
00V
C14
40.
1U/1
00V
R10
410
0K/2
012
R10
410
0K/2
012
R11
551
R11
551
C19
40.
1U/1
00V
C19
40.
1U/1
00V
C18
40.
1U/1
00V
C18
40.
1U/1
00V
C14
3
1U/3
225
C14
3
1U/3
225
R12
110
0K/2
012
R12
110
0K/2
012
C20
80.
1U/1
00V
C20
80.
1U/1
00V
R91
51R
9151
R96
100K
/201
2R
9610
0K/2
012
R84
100K
/201
2R
8410
0K/2
012
R78
100K
/201
2R
7810
0K/2
012
C19
10.
1U/1
00V
C19
10.
1U/1
00V
R92
100K
/201
2R
9210
0K/2
012
C21
00.
1U/1
00V
C21
00.
1U/1
00V
C14
60.
1U/1
00V
C14
60.
1U/1
00V
R10
910
0K/2
012
R10
910
0K/2
012
R11
310
0K/2
012
R11
310
0K/2
012
C20
20.
1U/1
00V
C20
20.
1U/1
00V
C15
00.
1U/1
00V
C15
00.
1U/1
00V
R10
510
0K/2
012
R10
510
0K/2
012
R14
251
R14
251
C14
70.
1U/1
00V
C14
70.
1U/1
00V
R93
100K
/201
2R
9310
0K/2
012
R12
751
R12
751
オシロスコープ
2mV
電流 2mA(ロード抵抗 約40kΩ)電流 15μA(ロード抵抗 約5MΩ)
80V出力した時のリップル
LT3482の定格電流は2mAだが....
ノイズは増える!
1312年12月21日金曜日
電流 15!A(ロード抵抗 約5MΩ) 電流 2mA(ロード抵抗 約40kΩ)
SN比15μA! ! ! ! ! 10.8±0.312mA! ! ! ! ! 10.7±0.30
ICに流れる電流による影響ほとんど無し
LT3482の高負荷特性2
1412年12月21日金曜日
まとめモジュール仕様の決定
新規部品の動作テストを行った
回路図を作成し発注
現在基板の詳細について打ち合わせ中
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
㼂㼛㼘㼠㼍㼓㼑㻌㼞㼍㼚㼓㼑㻌㼕㼟㻌㻜㻌㻙㻌㻤㻜㼂
ศᅽჾ䛷㻴㼂䜢㻟㻜ศ䛾㻝䛻ศᅽ䛩䜛
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VCTRL_LT
HV_LT
HV_LT
OUT+2.048V
VCTRL_LT
OUT+4V5
OUT+1V8
OUT+4V5
OUT+1V8
OUT+2.048V
HV_MPPC
HV_SHDN
CS_DAC
SCK_DAC
SDI_DAC
MON_HVI
MON_HVP
VREF_1.8V
VREF_4.5V
+5VA_VCC
+5VA_VCC
+5VA_VCC
+5VA_VCC
+3V3A_AVDD
Title
Size Document Number Rev
Date: Sheet of
<Doc> A
EASIROC_MODULE / POWER_HVA3
23 23Saturday, December 08, 2012
Title
Size Document Number Rev
Date: Sheet of
<Doc> A
EASIROC_MODULE / POWER_HVA3
23 23Saturday, December 08, 2012
Title
Size Document Number Rev
Date: Sheet of
<Doc> A
EASIROC_MODULE / POWER_HVA3
23 23Saturday, December 08, 2012
C5020.01U/100V
C507
10U
C504
0.01U/16V
U120 REF194GSZ-ND
VS2/+SLEEP3
TP1
1
GND
4
TP2
5
VOUT 6NC 7
8NC
C5010.22U/50V
R2501K
R2583.1K/1%
R255100K
C514
1U
JP5 JSW2
A 1B 2C 3C5030.22U/50V
U122
LM7322MM
OUTA1-INA2+INA3
-VIN4
+VIN 8
OUTB 7-INB 6+INB 5
U121 REF191GSZ-ND
VS2/+SLEEP3
TP1
1
GND
4
TP2
5
VOUT 6NC 7
8NC
TP66 HV_EXTC5060.1U/16V
C511
10U
R25215K
TP67 HV_EXT_GND
C5001U/16V
C499 0.1U/50V
R25151
C508
0.1U
R2471M
C510
1U
C509
0.1U
R2539.67M
C516
0.1U
C512
0.1U
R2574.7K/1%
R254330K
U119
DAC8411DCKT
SYNC1
SCLK2
DIN3 AVDD/VREF 4
GND 5
VOUT 6
C515
0.1U
C513
0.1U
JP1JSW2
12
R256OPT
U118
LT3482EUD#PBF
NC 1
APD 2
MO
NIN
3
VOUT2 4
VOUT1 5PUM
P6
SW7
SW8
GND
9G
ND10
VIN11
SHDN12
CTRL13
FB 14
FSET
15
MONOUT16
GND
17
R2481M
L7 6.8U
C5050.1U/100V
R24910K
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
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OTR_HGOTR_LG
ADC_HG_CH1ADC_HG_CH2ADC_HG_CH3ADC_HG_CH4ADC_HG_CH5ADC_HG_CH6ADC_HG_CH7ADC_HG_CH8ADC_HG_CH9ADC_HG_CH10ADC_HG_CH11ADC_HG_CH12
ADC_LG_CH1ADC_LG_CH2ADC_LG_CH3ADC_LG_CH4ADC_LG_CH5ADC_LG_CH6ADC_LG_CH7ADC_LG_CH8ADC_LG_CH9ADC_LG_CH10ADC_LG_CH11ADC_LG_CH12ADC_HG_CH[12:1]
OTR_HG
HG_TO_ADC
VREF_1.8VVREF_1.8V
LG_TO_ADC
ADC_LG_CH[12:1]
OTR_LG
ADC_CLK_HGADC_CLK_LG
+3V3D
+5VA_VCC+5VA_VCC
+3V3D
Title
Size Document Number Rev
Date: Sheet of
<Doc> A
EASIROC_MODULE / ADCA3
9 19Saturday, December 08, 2012
Title
Size Document Number Rev
Date: Sheet of
<Doc> A
EASIROC_MODULE / ADCA3
9 19Saturday, December 08, 2012
Title
Size Document Number Rev
Date: Sheet of
<Doc> A
EASIROC_MODULE / ADCA3
9 19Saturday, December 08, 2012
C17
(0.1U)
C19
10U
C12
0.1U
C23
0.1U
C53
0.1U
C14
0.1U
C3
10U
C20
10U
C24
10U
C1310U
C4
10U
R5(0)
C1
0.1U
C18
(0.1U)C21
0.1U
R2
51
R40
R1
51
C1110U
C2
0.1U
C54
0.1U
C100.1U
C25
0.1U
C50.1U
U1AD9220ARSZ
CLK1
OTR 14
AVD
D15
AVSS
16
REFCOM19
VINA23VINB24
AVSS
25
AVD
D26
DVS
S27
DVD
D28
B01 13B02 12B03 11B04 10B05 9B06 8B07 7B08 6B09 5B10 4B11 3B12 2
CAPB20 CAPT21
VREF18
CML22
SENSE17
U2AD9220ARSZ
CLK1
OTR 14
AVD
D15
AVSS
16
REFCOM19
VINA23VINB24
AVSS
25
AVD
D26
DVS
S27
DVD
D28
B01 13B02 12B03 11B04 10B05 9B06 8B07 7B08 6B09 5B10 4B11 3B12 2
CAPB20 CAPT21
VREF18
CML22
SENSE17
C150.1U
R6(0)
C80.1U
C160.1U
C26
10U
C9
0.1U
C22
0.1U
C6
0.1U
R30
C70.1U
1512年12月21日金曜日
Back up
1612年12月21日金曜日
32chのMPPC同時駆動が可能
4.5V 8bit での、32ch個別のHV 調節が可能
DATASHEET
EASIROC DATASHEET http://omega.in2p3.fr 7/22
1. Chip description
1.1. One channel description The analogue core features 32 channels embedding an input DAC for SiPM high voltage adjustment on 4.5V to tune the sensor gain channel by channel. Two voltage sensitive preamplifiers allow the requested dynamic range from 160 fC to 320 pC and are followed by a trigger line made of a fast shaper and a discriminator. The charge measurement is provided by two variable slow shapers and two Track and Hold blocks. The block scheme of a channel is shown on Figure 4.
Variable LowGain PA (4 bits)
HoldRead
Low GainMultiplexedOutput
Ch31_trig
Channel 0
Common to the 32 channels
Channel 31
Variable HighGain PA (4 bits)
+
V_thLatch
RS
Channel0_trigger
Discri
OR32
Slow Shaper25 - 175 ns
LG Slow ShaperVariable Shaping
Time (3 bits)
15 nsRead Trigger
MultiplexedOutput
Low GainPreAmp.
HG Slow ShaperVariable Shaping
Time (3 bits)
0.1pF - 1.5pF
1.5pF
10-bitDAC
RS or Discri
0.1pF - 1.5pF
15pF
High GainPreAmp.
HoldRead
High GainMultiplexedOutput
+Slow Shaper25 - 175 ns
3pF
in_calib
Bipolar Fast Shaper8-bit DAC
0-4.5V
INCh0
ONc15p
3pF
Ctest
Figure 4 – One channel description
アンプ、シェーパー、ディスクリミネータを内蔵し、そのGainやシェーピング時定数、VThなどを調節可能
EASIROCフランスLALで開発されたMPPC読み出し用ASIC
1712年12月21日金曜日
電流 80μA(ロード抵抗 約1MΩ) 電流 160μA(ロード抵抗 約0.5MΩ)
電流 240μA(ロード抵抗 約0.33MΩ) 電流 800μA(ロード抵抗 約0.1MΩ)
2mV
1812年12月21日金曜日
Module Interface(64ch)
RJ45
LVDS
NI
M
端子台
MPPC
Analog
Digital in
Digital out
LVDS
MPPC
Rear Panel
NIM用電源端子(±6V)
LVDS output ,電源用端子台
Front Panel
MPPC input (half pitch),
温度計入力
Analog (LEMO x5)
HighGain x2 ,Probe x2 ,HV入出力
Digital output (LEMO x5)
busy ,trigger out , sync,予備1,2
Digital input (LEMO x6)
HOLD ,clear ,accept ,timing stop ,sync,予備
RJ45(ethernet)(FPGA編集) ,LEDLED
1912年12月21日金曜日
電源のCTRL電圧と出力電圧
Vout = 66.36Vctrl - 1.06
LT3482 Vctrl
Vout
コントロール電圧を与える事により出力電圧を調節できる
FPGAを通してDACで調節 (0~1.25V)
2012年12月21日金曜日
温度依存性
温度(℃)
電圧(V)
LT3482
y= 00.0066x + 71.112
温度依存性LT3482! ! 6.6mV/℃
恒温槽に電源チップだけを入れ、出力電圧の温度依存性を調べた
2112年12月21日金曜日
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