DA, DP and DAP-type socket assemblies

DA-Type Socket Assemblies
Socket Assemblies with Transimpedance Amplifier (DA Type)
DA type socket assemblies contain an active voltage-divider circuit and an amplifier that converts high impedance current signals
from the photomultiplier tube into low impedance voltage signals. These socket assemblies ensure stable photomultiplier operation
with excellent output linearity.
Features
● Active Voltage Divider
● Superior DC Output Linearity
● Photomultiplier Tube Gain Adjustment Function (C7246 series)
● Wide Frequency Bandwidth (C7247 series)
● Input/output Connectors
(C7246-22, C7246-23, C7247-22, C7247-23)
Specifications
Amplifier
Maximum
Frequency
Maximum
Input Voltage Input Voltage Supply Voltage Bandwidth
(V)
(V)
(mA)
(-3 dB)
Applicable PMTs
Type No.
Current to Voltage Maximum Output
Conversion Factor Signal Voltage
(V)
(V/µA)
+20/-0.53
0.3
+10
DC to 20 kHz (load resistance (load resistance
10 kΩ)
10 kΩ)
+140/-50
0.15
+3
DC to 5 MHz (load resistance (load resistance
50 Ω)
50 Ω)
+20/-0.53
0.3
+10
DC to 20 kHz (load resistance (load resistance
10 kΩ)
10 kΩ)
+140/-50
0.15
+3
DC to 5 MHz (load resistance (load resistance
50 Ω)
50 Ω)
C7246-01
C7246-23
28 mm Side-on type
C7247-01
C7247-23
±12 to ±15
±18
C7246
C7246-22
C7247
28 mm Head-on type
R374, R2228, R5929,
R6094, R6095, etc.
C7247-22
NOTE: AIf the output signal voltage is 3 V or higher (with 10 kΩ load), the divider circuit input voltage should be -600 V to -1000 V.
Frequency Response of Built-in Amplifier
C7246/-01/-22/-23
C7247/-01/-22/-23
TACCB0065EA
10
5
5
0
-3dB
-5
-10
-15
-20
0.1
RELATIVE GAIN (dB)
RELATIVE GAIN (dB)
TACCB0046EB
10
0
-3dB
-5
-10
-15
1
10
1000
100
-20
0.01
0.1
1
FREQUENCY (kHz)
100
10
FREQUENCY (MHz)
Circuit Diagrams
C7246 (-01B/-22/-23B)
C7247 (-01B/-22/-23B)
K
P
DY1 DY2 DY3 DY4 DY5 DY6 DY7 DY8
DY9
DY10
DY11
50 Ω
C1
C2
C3
C4
ACTIVE VOLTAGE DIVIDER
SIGNAL
OUTPUT
K
P
DY1 DY2 DY3 DY4 DY5 DY6 DY7 DY8
DY9
DY10
DY11
50 Ω
AMP
C1
C2
C3
C4
AMP
ACTIVE VOLTAGE DIVIDER
C1, C2 : 10 nF
C3 : 22 nF
C4 : 47 nF
SIGNAL
OUTPUT
C1, C2 : 10 nF
C3 : 22 nF
C4 : 47 nF
VR = 5 MΩ
* PMT GAIN ADJ. CIRCUIT
-HV
* PATENT
NOTE: BC7247-01/-23 are for 28 mm side-on PMT so that the last dynode number is "DY9"
-HV
NOTE: BC7246-01/-23 are for 28 mm side-on PMT so that the last dynode number is "DY9"
102
TACCC0103EC
TACCC0115EB
Voltage-divider Circuit
Amplifier
Maximum
Offset
Output Noise Recommended
Divider
Voltage
Voltage
Supply Voltage Supply Voltage
Current
Max. (mV) Typ. (mV rms)
(V)
(V)
(µA)
Operating
Storage
Ambient
PMT Gain
Temperature
Temprature
Adjustable Range
(°C)
(°C)
(dB)
±1
0.09
(load resistance -300 to -1000 A
10 kΩ)
211
(HV = -1000 V)
30
±3
4.5
(load resistance
50 Ω)
166
(HV = -600 V)
—
-300 to -600
(g)
50
170
(With connectors)
50
0 to +40
-1500
±1
0.09
(load resistance -400 to -1000 A
10 kΩ)
174
(HV = -1000 V)
10
±3
4.5
(load resistance
50 Ω)
219
(HV = -900 V)
—
-400 to -900
Weight
170
(With connectors)
-15 to +60
55
170
(With connectors)
55
170
(With connectors)
Dimensional Outlines (Unit : mm)
C7246-01/-23, C7247-01/-23
[BOTTOM VIEW]
C7246/-22
49.0 ± 0.3
10.5
1)
POT (VR)
8.5
29.0 ± 0.3
10.5
4
8.5
GAIN ADJ.
38.0 ± 0.3
1)
POT (VR)
25.2
[BOTTOM VIEW]
C7246-01/-23
GAIN ADJ.
31.7 ± 0.3
C7247/-22
37.7 ± 0.5
0.7
40.0 ± 0.5
5
33.0 ± 0.3
3.5
C7246/-22, C7247/-22
HOUSING
(METAL)
C7247-01/-23
31.7 ± 0.3
HOUSING
(METAL)
10.5
10.5
TACCA0197ED
TACCA0175EF
Type No.
Input/output
-HV
Signal Output
±15 V
-HV
C7246-22/-23
Signal Output
C7247-22/-23
±15 V
C7246/-01
C7247/-01
Cable Type
Cable Length Connector
SHIELD CABLE 2) (GRAY)
—
COAXIAL CABLE: RG-174/U (BLACK) 450 ± 10
—
—
TWISTED PAIR CABLE WITH SHIELD 3) (GRAY)
SHV-P
SHIELD CABLE (GRAY)
BNC-P
COAXIAL CABLE: RG-174/U (BLACK) 1500 ± 25
TWISTED PAIR CABLE WITH SHIELD (GRAY)
DIN (6 PIN)-P
NOTES: 1) Turning this pot clockwise decreases the PMT gain. (25 turns max.)
2) At the end of HV cable, it's possible to attach SHV connector fitting RG-174/U.
3) Connect as follow.
WHITE........ -15 V
ORANGE.... +15 V
SHIELD....... GND
* See page 121 for details on flanges and housing contains a magnetic shield case.
103
DP-Type Socket Assemblies
High Voltage Power Supply Socket Assemblies (DP Type)
DP type socket assemblies include a high voltage power supply and so allow easily operating a photomultiplier tube just by
supplying a low voltage (+15 V or +5 V). These socket assemblies ensure highly stable photomultiplier tube operation with
excellent output linearity.
Features
● Superior DC Output Linearity
● Active Voltage Divider
(C12597-01, C13003-01, C13004-01)
● Fast High Voltage Programming Response (C12597-01, C13003-01, C13004-01)
● Cockcroft-Walton Circuit (C8991, C8991-01, C10344-03, C12842-01, C12842-02)
● Low Power Consumption (C8991, C8991-01, C10344-03, C12842-01, C12842-02)
Specifications
Type No.
B
PMT
Maximum Maximum
Anode E
Linear DC
Input
Input
Input Voltage
Voltage Current Output Current Ripple Noise
Min. (µA) Typ. (mVp-p)
(V)
(mA)
(V)
Applicable PMTs
+15 ± 1
60
+11.5 to +15.5
8
C12597-01
C8991
28 mm side-on type
100 C
0.5
1
100 D
C8991-01
+13.5 to +15.5
25 mm head-on type
R1924A, R1925A, R3550A, R5070A, etc.
C13003-01
C13004-01
C12842-02 A
+11.5 to +15.5
+5 ± 0.5
NOTE: A C12842-01S/-02S which is with shutter(10ms to DC) function are also available.
Please refer the individual datasheet for details.
B When photomultiplier tube is not attached.
DC Linearity Characteristics
+6
8
100 D
1
3
100 D
0.6
(Max.)
High Voltage Controlling Characteristics
TACCB0103EC
TACCB0041EE
-1750
140
20
0.5
C PMT Supply Voltage: -1000 V, Within: ±2 % linearity
D PMT Supply Voltage: -1000 V, Within: ±0.5 % linearity
E Load resistance=1 MΩ, Load capacitance=20 pF to 25 pF
Practical PMT DC Output Limits
TACCB0102EB
100 C
65
8 stage dynode, head-on type
R6231, R6232, R6233, R6234, R6235, R6236, R6237, etc.
10 stage dynode, head-on type
R878, R550, R594, R877, R1512, R1513, etc.
C12842-01 A
60
+15 ± 1
28 mm head-on type
R374, R2228, R5929, R6094, R6095, etc.
C10344-03
C13004-01
C12597-01,
C13003-01,
C13004-01
0
C8991/-01,
C10344-03
120
C8991/-01, C10344-03
C12842-01/-02
-1500
C12597-01, C13003-01
OUTPUT VOLTAGE (V)
(Reference)
330 kΩ / STAGE
RESISTIVE DIVIDER
PMT OUTPUT CURRENT (µA)
DEVIATION (%)
PMT SUPPLY VOLTAGE: -1000 V
10
1.5
10
+18
100
C13003-01
80
C13004-01
60
C12597-01
40
(Reference)
330 kΩ / STAGE
RESISTIVE DIVIDER
20
-1250
-1000
-750
-500
C8991*
C8991-01
C10344-03
C12842-01/-02
-250
C12842-01/-02
-10
1
10
100
1000
0
-400
-600
-800
-1000
-1200
-1400
-1600
0
0
0
PMT SUPPLY VOLTAGE* (V)
PMT OUTPUT CURRENT (µA)
* Photomultiplier tube must be used with a supply voltage within the rated range.
+1
+0.2
+2
+0.4
+3
+0.6
+4
+0.8
+5
+1.0
+6
+1.2
+7
+1.4
CONTROL VOLTAGE (V)
(C12597-01, C13003-01,
+8 C13004-01)
+1.6 (C8991/-01, C10344-03,
C12842-01/-02)
* C8991 can be controlled up to +1.2 V (output voltage -1200 V).
Schematic Diagrams
C8991
C8991-01
C10344-03
C12597-01
C13003-01
C13004-01
ACTIVE
VOLTAGE
DIVIDER
1.8 kΩ
HIGH
VOLTAGE
POWER
SUPPLY
SIGNAL OUT (COAX)
104
COCKCROFTWALTON CIRCUIT
(HIGH VOLTAGE
DIVIDER)
COCKCROFTWALTON CIRCUIT
(HIGH VOLTAGE
DIVIDER)
+15 V IN (RED)
PMT
SOCKET
C12842-01
C12842-02
1.8 kΩ
GND (BLACK)
Vref (+5 V) OUT (BLUE)
: C12597-01, C13003-01
Vref (+6 V) OUT (BLUE)
: C13004-01
HV CONTROL (WHITE)
GND (BLACK)
TACCC0122EB
PMT
SOCKET
PMT
SOCKET
6.2 kΩ
HIGH VOLTAGE
ADJUSTMENT
CIRCUIT
SIGNAL OUT (COAX)
+15 V IN (RED)
Vref (+2.5 V) OUT (C8991-01, C10344-03) (BLUE)
Vref (+1.2 V) OUT (C8991) (BLUE)
HV CONTROL (WHITE)
GND (BLACK)
HIGH VOLTAGE
ADJUSTMENT
CIRCUIT
6.2 kΩ
+5 V IN (RED)
Vref (+2.5 V) OUT (BLUE)
HV CONTROL (WHITE)
GND (BLACK)
SIGNAL OUT (COAX)
TACCC0141EA
TACCC0167EA
High Voltage Power Supply
Output Voltage
Range
(V)
Linear G
Regulation
Typ. (%)
-100 to -1250 F
-200 to -1200 F
-200 to -1500 F
-200 to -1250 F
-200 to -1500 F
±0.01
-200 to -1500 F
Output Voltage
Control
Typ. (ms)
Settling
Time
(s)
80
—
±0.01
0 to +50
—
10
±0.005
0 to +50
0 V to +5 V or
external 50 kΩ potentiometer
0 V to +1.2 V or
external 10 kΩ potentiometer
0 V to +1.5 V or
external 10 kΩ potentiometer
0 V to +5 V or
external 50 kΩ potentiometer
0 V to +6 V or
external 50 kΩ potentiometer
0 V to +1.5 V or
external 10 kΩ potentiometer
F Output voltage that guarantees the characteristics.
G Against ±1 V input change
H for 0 %/99 % HV change
Dimensional Outlines
C12597-01
C13003-01
(g)
45
57
80
—
±0.01
0 to +40
—
10
±0.005
0 to +50
57
—
10
±0.01
0 to +50
176
-15 to +60
40
I The time required for the output to reach a stable level following a change in the control voltage
from +1.0 V to +0.5 V.
(Unit: mm)
C13004-01
C8991
C8991-01
5
C10344-03
C12842-01/-02
33.0 ± 0.3
38.0 ± 0.3
49.0 ± 0.3
31.7 ± 0.3
25.2
25.2
38.0 ± 0.3
49.0 ± 0.3
31.7 ± 0.3
31.8 ± 0.5
31.8 ± 0.5
TACCA0328EA
SIGNAL OUTPUT
+15 V INPUT
Vref OUTPUT
HV CONTROL INPUT
GND
GND
COAXIAL CABLE RG-174/U
AWG 24, RED
AWG 24, BLUE
AWG 24, WHITE
AWG 24, BLACK
AWG 24, BLACK
TACCA0329EA
SIGNAL OUTPUT
+15 V INPUT
Vref OUTPUT
HV CONTROL INPUT
GND
GND
COAXIAL CABLE RG-174/U
AWG 24, RED
AWG 24, BLUE
AWG 24, WHITE
AWG 24, BLACK
AWG 24, BLACK
TACCA0330JA
* See page 121 for details on flanges and housing contains a magnetic shield case.
450 ± 20
HOUSING
(METAL)
450 - 0
5
10
10
5
5
COAXIAL CABLE RG-174/U
AWG 24, RED
AWG 24, BLUE
AWG 24, WHITE
AWG 24, BLACK
AWG 24, BLACK
HOUSING
(METAL)
+20
450 ± 10
5
450 MIN.
SIGNAL OUTPUT
+15 V INPUT
Vref OUTPUT
HV CONTROL INPUT
GND
10.5
10.5
SIGNAL OUTPUT
+15 V INPUT
Vref OUTPUT
HV CONTROL INPUT
GND
GND
50.0 ± 0.5
40.0 ± 0.5
0.7
HOUSING
(METAL)
31.8 ± 0.5
31.7 ± 0.3
450 MIN.
450 MIN.
HOUSING
(METAL)
37.7 ± 0.5
HOUSING
(METAL)
37.8 ± 0.5
HOUSING
(METAL)
37.8 ± 0.5
0.7
35.5 ± 0.5
4
4
65
25.2
29.0 ± 0.3
7
7
29.0 ± 0.3
31.7 ± 0.3
3.5
5
3.5
33.0 ± 0.3
Weight
59
0 V to +1.5 V or
external 10 kΩ potentiometer
0 to -1500
I
Operating
Storage
Temperature Ambient
Coefficient Temperature Temperature
(°C)
Typ. (%/°C)
(°C)
Output H
Voltage Programing
Response
COAXIAL CABLE RG-174/U
AWG 24, RED
AWG 24, BLUE
AWG 24, WHITE
AWG 24, BLACK
TACCA0053EE
SIGNAL OUTPUT
+15 V INPUT
Vref OUTPUT
HV CONTROL INPUT
GND
COAXIAL CABLE RG-174/U
AWG 24, RED
AWG 24, BLUE
AWG 24, WHITE
AWG 24, BLACK
TACCA0294EA
SIGNAL OUTPUT
+5 V INPUT
Vref OUTPUT
HV CONTROL INPUT
GND
COAXIAL CABLE RG-174/U
AWG 26, RED
AWG 26, BLUE
AWG 26, WHITE
AWG 26, BLACK
TACCA0323EA
105
DAP-Type Socket Assemblies
High Voltage Power Supply Socket Assemblies
with Transimpedance Amplifier (DAP Type)
DAP type socket assemblies contain an high voltage power supply and an amplifier that converts high impedance current signals
from the photomultiplier tube into low impedance voltage signals. These socket assemblies ensure stable photomultiplier operation
with excellent output linearity.
Features
● Superior DC Output Linearity
● Active Voltage Divider (C6271, C7950, C7950-01)
● Fast High Voltage Programming Response
(C6271, C7950, C7950-01)
● Cockcroft-Walton Circuit (C12843-01, C12843-02)
● Low Power Consumption (C12843-01, C12843-02)
● Wide Frequency Bandwidth (C7950, C7950-01)
● Single Power Supply Operation (C6271)
Specifications
Type No.
B
PMT
Amplifier
Maximum Maximum
Input
Frequency Current to Voltage Maximum Output
Linear DC
Input
Input
Voltage Voltage Current Output Current Bandwidth Conversion Factor Signal Voltage
(V)
(V)
(mA)
Min. (µA)
(-3 dB)
(V/µA)
(V)
0.3
43
DC to
+13
+15 ± 1
+18
+60/—
(load resistance 10 kΩ) C
10 kHz (load resistance 10 kΩ) (load resistance 10 kΩ)
Applicable PMTs
C6271
28 mm side-on type
C7950
±15 ± 1
28 mm head-on type
R374, R2228, R5929, R6094, R6095, etc.
8 stage dynode, head-on type
R6231, R6232, R6233, R6234, R6235, R6236, etc.
±5 ± 0.5
10 stage dynode, head-on type
R878, R550, R594, R877, R1512, R1513, etc.
C7950-01
C12843-01 A
C12843-02
A
±18
+65/-20
8
DC to
(load resistance 50 Ω) D
5 MHz
±6
+6.5/-3.5
40
0.1
+4
DC to
(load resistance 10 kΩ) E 200 kHz (load resistance 10 kΩ) (load resistance 10 kΩ)
C PMT Supply Voltage: -1000 V, Within: ±2 % linearity
D PMT Supply Voltage: -900 V, Within: ±2 % linearity
E PMT Supply Voltage: -1000 V, Within: ±0.5 % linearity
NOTE: A C12843-01S/-02S which is with shutter(10ms to DC) function are also available.
Please refer the individual datasheet for details.
B When photomultiplier tube is not attached.
DC Linearity Characteristics
Practical PMT DC Output Limits
TACCB0104EB
140
DEVIATION (%)
(Reference)
330 kΩ / STAGE
RESISTIVE DIVIDER
10
C12843-01/-02
0
C7950/-01
C6271
PMT OUTPUT CURRENT (µA)
20
PMT SUPPLY VOLTAGE: -1000 V (C6271, C12843-01/-02)
-900 V (C7950, C7950-01)
TACCB0105EB
120
100
80
C6271
60
40
C7950/-01
20
-10
1
10
100
0
-400
1000
-1000
-1200
-1400
-1600
Frequency Bandwidth
TACCB0106EB
TACCB0108EB
10
C12843-01/-02
-1250
5
RELATIVE GAIN (dB)
OUTPUT VOLTAGE (V)
-800
C12843-01/-02
PMT SUPPLY VOLTAGE (V)
High Voltage Controlling Characteristics
-1500
C6271
-1000
-900
-750
C7950*,
C7950-01*
-500
C12843-01/02
C7950/-01
0
-3 dB
-5
C6271
-10
-15
-250
0
0
+1
+0.25
+2
+0.5
+3
+3.6 +4
+0.75
+1.0
+5
+1.25
+6 (C6271, C7950, C7950-01)
+1.5 (C12843)
CONTROL VOLTAGE (V)
106
(Reference)
330 kΩ / STAGE
RESISTIVE DIVIDER
-600
PMT OUTPUT CURRENT (µA)
0
0.15
+1.2
(load resistance 50 Ω) (load resistance 50 Ω)
* The output is -900 V even if the control voltage is set higher than +3.6 V.
-20
0.1
1
10
100
1000
FREQUENCY (kHz)
10000
100000
Amplifier
High Voltage Power Supply
Operating
Storage
I Settling J Temperature Ambient
Output
Signal Output Induced Ripple
Line H Output Voltage VoltageOutput
Programing
Temperature Weight
Voltage Range Regulation
Time
Offset Voltage
on
Coefficient
Temperature
Response
Control
(s)
Typ. (mV) Signal Output
(V)
Typ. (%)
Typ. (%/°C)
(°C)
(g)
Typ. (ms)
(°C)
2 mVp-p F
0 V to +5 V or
80
±0.01
0 to -1250
±0.3
±0.01
—
0 to +40
55
(Typ.)
external 50 kΩ potentiometer
±10
10 mVrms G
(Typ.)
0 to -900
1 mVp-p F
(Max.)
0 to -1500
±1
±0.03
80
0 V to +3.6 V
—
±0.03
60
0 to +40
-15 to +60
±0.01
0 V to +1.5 V
or
external 10 kΩ potentiometer
—
10
±0.01
0 to +50
60
180
I for 0 %/99 % HV change
J The time required for the output to reach a stable level following a change
in the control voltage from +1.0 V to +0.5 V.
F Load resistance=1 MΩ, Load capacitance=20 pF to 25 pF
G Load resistance=50 Ω, Load capacitance=25 pF
H Against ±1 V input change
Schematic Diagrams
C7950, C7950-01
C6271
10 Ω
AMP
C12843-01, C12843-02
50 Ω
SIGNAL OUT (COAX)
AMP
PMT
SOCKET
PMT
SOCKET
ACTIVE
VOLTAGE
DIVIDER
1.8 kΩ
HIGH VOLTAGE
POWER SUPPLY
+15 V IN (RED)
Vref (+5 V) OUT (BLUE)
HV CONTROL (WHITE)
GND (BLACK)
GND (BLACK)
-15 V IN (BLUE)
ACTIVE
VOLTAGE
DIVIDER
HIGH VOLTAGE
POWER SUPPLY
PMT
SOCKET
-5 V IN (GREEN)
COCKCROFTWALTON CIRCUIT
(HIGH VOLTAGE
DIVIDER)
HIGH VOLTAGE 6.2 kΩ
ADJUSTMENT
CIRCUIT
TACCC0125EA
Dimensional Outlines
SIGNAL OUT (COAX)
AMP
+15 V IN (RED)
HV CONTROL (WHITE)
GND (SHIELD)
TACCC0096EE
C6271
50 Ω
SIGNAL OUT (COAX)
+5 V IN (RED)
Vref (+2.5 V) OUT (BLUE)
HV CONTROL (WHITE)
GND (BLACK)
TACCC0169EA
(Unit: mm)
C7950
C7950-01
C12843-01/-02
5
32
3.5
33.0 ± 0.3
2 × 3.2
38
38.0 ± 0.3
45
49.0 ± 0.3
31.7 ± 0.3
29.0 ± 0.3
65
25.6
HOUSING
(METAL)
50.0 ± 0.5
HOUSING
(METAL)
32
SIGNAL OUTPUT
+15 V INPUT
Vref OUTPUT
HV CONTROL INPUT
GND
GND
HOUSING
(METAL)
450 ± 20
CONDUCTIVE
PLASTIC
450 ± 10
450 ± 10
450 MIN.
10.5
31.7 ± 0.3
60.0 ± 0.5
48.5
R1
57.7 ± 0.5
2.5
0.7
4
4
31.5
COAXIAL CABLE RG-174/U
AWG 24, RED
AWG 24, BLUE
AWG 24, WHITE
AWG 24, BLACK
AWG 24, BLACK
C7950, C7950-01
TACCA0156EE
10.5
COAXIAL CABLE RG-174/U BLACK SIGNAL OUTPUT
HV CONTROL INPUT
SHIELDED CABLE
GRAY
—
(TWISTED PAIR CABLE)
GND
+15 V INPUT
SHIELDED CABLE LIGHT
-15 V INPUT
(TWISTED PAIR CABLE) BLUE
GND
—
WHITE
ORANGE
SHIELD
RED
BLUE
SHIELD
* See page 121 for details on flanges and housing contains a magnetic shield case.
SIGNAL OUTPUT
+5 V INPUT
Vref OUTPUT
HV CONTROL INPUT
GND
-5 V INPUT
COAXIAL CABLE RG-174/U
AWG 26, RED
AWG 26, BLUE
AWG 26, WHITE
AWG 26, BLACK
AWG 26, GREEN
TACCA0337EA
10.5
TACCA0261EA
107
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