High voltage power supplies listed in this catalog have the following features: ●Low noise ●High efficiency ●High stability ●Protection function included Our many years of experience and achievements amassed as a leading manufacturer of photomultiplier tubes as well as the high voltage power supplies that drive them ensure highly reliable performance in a diverse range of applications. Human beings obtain more than 70 percent of the information visually by using their eyes. However, there are vast sums of information and unknown possibilities hidden within light not visible to the naked eye. This kind of light includes ultraviolet, infrared, X-ray and ultra-low level light impossible for human eyes to detect. Since its founding over 60 years ago, Hamamatsu Photonics has been investigating not only light seen by the human eye but also light that far exceeds this level. As a leading manufacturer specializing in the field of photonics, Hamamatsu Photonics has marketed dozens of photosensitive devices, light sources and related products. Through these state-of-the-art products, Hamamatsu Photonics has committed itself to pioneering industrial and academic research work in still unexplored areas in many fields. Hamamatsu Photonics will continue to deliver innovative breakthroughs in a diverse range of fields, always striving to make human life fuller and richer by "researching the many ways to use light". High Voltage Power Supply Modules Output Voltage (Max.) (V) Type No. C10940 C4900 -03 -03-R2 -53 -53-R2 — -01 -50 -51 Input Voltage (V) (mm) 0.6 +5 15 × 18 × 15 0.6 0.5 0.6 0.5 +15 +12 +15 +12 46 × 24 × 12 0.6 +15 0.5 +12 1 +15 +1200 -1250 +1250 46 × 24 × 12 -1250 -01 — -1250 -50 +1250 C10764 — -01 -50 -51 — -01 -50 -51 C11152 C9619 -1500 1 +1500 -2000 2 +2000 -12 -2000 -52 +2000 -12 -1000 -52 +1000 C11784 C12446 -02 -02-R1 -02-R2 -52 -52-R1 -52-R2 Size W×H×DA -1200 — C10673 C11323 Output Current (Max.) (mA) +15 +12 +15 +12 +15 +12 +15 +12 41 × 10 × 41 -1500 -52 +1500 UL recognized Low ripple / noise 62 × 15 × 45 5 +24 62 × 15 × 45 10 +24 62 × 15 × 45 20 +24 98 × 27 × 51 30 +24 107 × 25.5 × 72 +1800 -12 Digital Control RS-485, Daisy-chain (-R2 type only) 46 × 24 × 12 -1800 C12766 Note High current output -R1 type: RS-232C Control -R2 type: RS-485 Control High current output AExcluding projecting parts Bench-top Type High Voltage Power Supplies Output Voltage (Max.) (V) Type No. C9525 C9727 AExcluding projecting parts -02 -03 -52 -53 — -01 -50 -51 Output Current (Max.) (mA) -2000 (V) Size W×H×DA 1.8 246 × 85 × 312 2 AC 100 to AC 240 246 × 85 × 312 -3500 Note (mm) AC 100 to AC 240 +2000 +3500 Input Voltage USB control Multiple outputs of ±5 V, ±15 V and high voltage (+2000 V, -2000 V) USB control Multiple outputs of ±5 V, ±15 V and high voltage (+3500 V, -3500 V) High Voltage Power Supply Modules 0.7 W Output 1200 V / 0.6 mA C10940 Series Parameter C10940-53 C10940-03-R2 C10940-53-R2 +5 ± 0.5 60 230 -10 to -1200 +10 to +1200 -200 to -1200 +200 to +1200 0.6 ±0.02 ±0.01 50 See output voltage See remote control See output voltage See remote control control diagrams below diagram below control diagrams below diagram below +1.2 — +1.2 — Controlling voltage × 1000 Controlling voltage × 1000 — — 120 120 300 300 ±0.01 0 to +50 Below 80 -20 to +60 Below 80 8.5 Units protected against reversed power input, reversed/excessive controlling voltage input, continuous overloading/short circuit output C10940-03 Input Voltage Typ. with no load Typ. with full load Variable Output Voltage Range Specification Guaranteed Output Voltage Range Max. Output Current Line Regulation Against ±0.5 V Input Change AB Typ. Load Regulation Against 0 % to 100 % Load Change A Typ. Typ. Ripple / Noise (p-p) AB Input Current A Output Voltage Control Reference Voltage Output Output Voltage Setting (Absolute Value) Output Voltage Rise Time (0 % ➝ 99 %) AB Temperature Coefficient AB Operating Ambient Temperature AB Operating Ambient Humidity C Storage Temperature Storage Humidity C Weight Typ. Typ. Typ. Typ. Typ. Protective Functions Unit V mA mA V V mA % % mV — V V ms %/°C °C % °C % g — NOTE: AAt maximum output voltage BAt maximum output current CNo condensation * -R2 type: RS-485 control 7 15.0 ± 0.5 7.9 6 7- 0.45 ■Dimensional Outline (Unit: mm) 2.5 5 4 3 2 1 3.0 1.778 × 4=7.112 7.62 15.0 ± 0.5 2.5 ± 0.5 18.0 ± 0.5 BOTTOM VIEW SIDE VIEW TACCA0316EA ■Output Voltage Control (C10940-03, C10940-53) 7 1 +5 V ●By External Potentiometer 2 MIN. 200 kΩ LOAD 3 0 V to +1.2 V * DON'T USE 4 5 7 1 +5 V 50 kΩ MAX. 2 3 200 kΩ 4 5 6 LOAD ●By External Voltage 6 1Vcc +5 V 2Vcont GND 3Vcont 4Vref +1.2 V Typ. 5Vcc GND 6HV GND 7HV OUT * The instability in the external controlling voltage should be minimized as it directly affects the output voltage quality. TACCC0156EA ■Remote Control (C10940-03-R2, C10940-53-R2) PC 1 Vcc 7 3 4 5 uC 10 kΩ AMP High Voltage Divider Current Sense 6 LOAD 2 1Vcc +5 V 2RS-485 A 3RS-485 B 4UNUSED NORMALLY 5Vcc GND 6HV GND Multiple wiring of -R2 type can be 7HV OUT possible up to 32 pieces using a daisy-chain via RS-485. TACCC0157EA 2 High Voltage Power Supply Modules 0.7 W Output 1250 V / 0.5 mA, 0.6 mA C4900 Series Parameter C4900 +15 ± 1 14 90 Input Voltage with no load Typ. with full load Typ. Variable Output Voltage Range Specification Guaranteed Output Voltage Range Output Current Max. Line Regulation Against ±1 V or ±0.5 V Typ. Input Change AB Load Regulation Against 0 % to 100 % Typ. Load Change A AB Ripple / Noise (p-p) Typ. Output Voltage Control Controlling Voltage Input Impedance Typ. Reference Voltage Output Typ. Output Voltage Setting (Absolute Value) Typ. Output Voltage Rise Time (0 % ➝ 99 %) AB Typ. Temperature Coefficient AB Typ. Operating Ambient Temperature AB Operating Ambient Humidity C Storage Temperature Storage Humidity C Weight Typ. Input Current A C4900-50 C4900-51 +12 ± 0.5 +15 ± 1 15 14 95 90 0 to +1250 +200 to +1250 0.5 0.6 0 to -1250 -200 to -1250 0.6 Protective Functions NOTE: AAt maximum output voltage C4900-01 +12 ± 0.5 15 95 0.5 Unit V mA V V mA ±0.01 % ±0.01 % 0.003 % (38 mV) By external controlling voltage (0 V to +5 V) or external potentiometer (50 kΩ) 80 +5.1 Controlling voltage × 250 50 ±0.01 0 to +50 Below 80 Below 80 D -20 to +70 Below 80 31 Units protected against reversed power input, reversed / excessive controlling voltage input, continuous overloading / short circuit in output — — kΩ V V ms % / °C °C % °C % g BAt maximum output current CNo condensation — DAt 0 °C to +40 °C ■Dimensional Outline (Unit: mm) 12 24 29 0.5 46 y 0.5 5 MIN. q w ert 0.3 1.5 2.5 15.88 3.81 MOUNTING TABS 15.88 ( • The • mounting tabs can be bent to the right angle only once. The mounting tabs are solderable. ) 6-0.5×0.25 2.54 10.16 17.78 (BOTTOM VIEW) TACCA0157EC ■Output Voltage Control ●By External Voltage q w e t r ●By External Potentiometer y q w e r t DON'T USE MAX. MIN. +15 V or +12 V 0 V to +5 V* LOAD * The instability in the external controlling voltage should be minimized as it directly affects the output voltage quality. +15 V or +12 V 50 kΩ y PIN ASSIGNMENT q Vcc +15 V or +12 V w GND e Vcont GND r Vcont t Vref +5.1 V Typ. y HV OUT • The housing is internally connected to pin w. • Pins w and e are internally connected. LOAD TACCC0049ED 3 High Voltage Power Supply Modules 0.7 W Output 1250 V / 0.5 mA, 0.6 mA C10673 Series UL recognized (File No. E315290) Parameter C10673 +15 ± 1 15 95 Input Voltage with no load with full load Input Current A Typ. Typ. Variable Output Range Specification Guaranteed Output Voltage Range Max. Output Current Line Regulation Against ±1 V or ±0.5 V Input Change AB Typ. Load Regulation Against 0 % to 100 % Load Change A Typ. Ripple / Noise (p-p) AB Typ. Output Voltage Control Controlling Voltage Input Impedance Typ. Reference Voltage Output Typ. Output Voltage Setting (Absolute Value) Typ. Output Voltage Rise Time (0 % ➝ 99 %) AB Typ. Temperature Coefficient AB Typ. Operating Ambient Temperature AB Operating Ambient Humidity C Storage Temperature Storage Humidity C Weight Typ. Protective Functions NOTE: AAt maximum output voltage C10673-01 +12 ± 0.5 20 100 Unit V mA 0 to -1250 -200 to -1250 0.6 0.5 ±0.01 ±0.01 0.01 % (125 mV) By external controlling voltage (0 V to +5 V) or external potentiometer (50 kΩ) 80 +5.1 Controlling voltage × 250 150 ±0.015 0 to +40 Below 80 -20 to +60 Below 80 31 Units protected against reversed power input, reversed / excessive controlling voltage input, continuous overloading / short circuit in output BAt maximum output current V V mA % % — — kΩ V V ms % / °C °C % °C % g — CNo condensation ■Dimensional Outline (Unit: mm) 12 24 29 0.5 46 y 0.5 5 MIN. q w ert 0.3 1.5 2.5 15.88 3.81 MOUNTING TABS 15.88 ( • The • mounting tabs can be bent to the right angle only once. The mounting tabs are solderable. ) 6-0.5×0.25 2.54 10.16 17.78 (BOTTOM VIEW) TACCA0157EC ■Output Voltage Control ●By External Voltage q w e t r ●By External Potentiometer y q w e r t DON'T USE MAX. MIN. +15 V or +12 V 0 V to +5 V* LOAD * The instability in the external controlling voltage should be minimized as it directly affects the output voltage quality. 4 +15 V or +12 V 50 kΩ y PIN ASSIGNMENT q Vcc +15 V or +12 V w GND e Vcont GND r Vcont t Vref +5.1 V Typ. y HV OUT • The housing is internally connected to pin w. • Pins w and e are internally connected. LOAD TACCC0049ED High Voltage Power Supply Modules 1.2 W Output 1250 V / 1 mA C10764 Series Parameter C10764 C10764-50 with no load Typ. with full load Typ. Variable Output Voltage Range Specification Guaranteed Output Voltage Range Output Current Max. Line Regulation Against ±1 V Typ. Input Change AB Load Regulation Against 0 % to 100 % Typ. Load Change A AB Ripple / Noise (p-p) Typ. Output Voltage Control Controlling Voltage Input Impedance Typ. Reference Voltage Output Typ. Output Voltage Setting (Absolute Value) Typ. Output Voltage Rise Time (0 % ➝ 99 %) AB Typ. Temperature Coefficient AB Typ. Operating Ambient Temperature AB Operating Ambient Humidity C Storage Temperature Storage Humidity C Weight Typ. Input Current A 0 to -1250 -200 to -1250 Protective Functions NOTE: AAt maximum output voltage Unit V +15 ± 1 20 170 Input Voltage mA 0 to +1250 +200 to +1250 1 V V mA ±0.01 % ±0.01 % 0.01 % (125 mV) By external controlling voltage (0 V to +5 V) or external potentiometer (50 kΩ) 80 +5.2 Controlling voltage × 250 100 ±0.01 0 to +40 Below 80 -20 to +60 Below 80 31 Units protected against reversed power input, reversed / excessive controlling voltage input, continuous overloading / short circuit in output — — kΩ V V ms % / °C °C % °C % g BAt maximum output current — CNo condensation ■Dimensional Outline (Unit: mm) 12 24 29 0.5 46 y 0.5 5 MIN. q w ert 0.3 1.5 2.5 15.88 3.81 MOUNTING TABS 15.88 ( • The • mounting tabs can be bent to the right angle only once. The mounting tabs are solderable. ) 6-0.5×0.25 2.54 10.16 17.78 (BOTTOM VIEW) TACCA0157EC ■Output Voltage Control ●By External Voltage q w e t r ●By External Potentiometer y q w e r t DON'T USE MAX. MIN. +15 V 0 V to +5 V* LOAD * The instability in the external controlling voltage should be minimized as it directly affects the output voltage quality. +15 V 50 kΩ y PIN ASSIGNMENT q Vcc +15 V w GND e Vcont GND r Vcont t Vref +5.2 V Typ. y HV OUT • The housing is internally connected to pin w. • Pins w and e are internally connected. LOAD TACCC0154ED 5 High Voltage Power Supply Modules 1.5 W Output 1500 V / 1 mA C11152 Series Parameter C11152 +15 ± 1 45 180 C11152-01 +12 ± 0.5 50 220 0 to -1500 -240 to -1500 Input Voltage C11152-50 C11152-51 +15 ± 1 +12 ± 0.5 45 50 180 220 0 to +1500 +240 to +1500 with no load Typ. with full load Typ. Variable Output Voltage Range Specification Guaranteed Output Voltage Range Max. Output Current 1 Line Regulation Against ±1 V or ±0.5 V Typ. ±0.01 Input Change AB Load Regulation Against 0 % to 100 % Typ. ±0.01 Load Change A AB Typ. Ripple / Noise (p-p) 5 (>5 kHz), 8 (< =5 kHz) Output Voltage Control By external controlling voltage (0 V to +5 V) or external potentiometer (50 kΩ) Controlling Voltage Input Impedance Typ. 130 150 Typ. Reference Voltage Output +5.2 Output Voltage Setting (Absolute Value) Typ. Controlling voltage × 300 Output Voltage Rise Time (0 % ➝ 99 %) AB Typ. 120 Typ. Temperature Coefficient AB ±0.005 High Voltage Monitor Output 0 to +5 (Output impedance 10 kΩ) ON / OFF Input TTL positive logic ON / OFF Input Impedance 30 Operating Ambient Temperature AB 0 to +50 Operating Ambient Humidity C Below 80 Storage Temperature -20 to +60 Storage Humidity C Below 80 Typ. Weight 38 Units protected against reversed power input, reversed / excessive controlling Protective Functions voltage input, continuous overloading / short circuit in output Input Current A NOTE: AAt maximum output voltage BAt maximum output current Unit V mA V V mA % % mV — kΩ V V ms % / °C V — kΩ °C % °C % g — CNo condensation ■Dimensional Outline (Unit: mm) 2.54 × 6 METAL HOUSING* 2.54 9 5±1 10 13.97 9- 0.64 41.0 ± 0.5 16.51 1 2 3 4 5 6 7 8 7.62 10.16 * The metal housing is internally connected to the GND. 41.0 ± 0.5 TACCA0306EB ■Output Voltage Control ●By External Voltage ●By External Potentiometer LOAD LOAD 8 9 130 kΩ: C11152, C11152-01 150 kΩ: C11152-50, C11152-51 8 9 130 kΩ: C11152, C11152-01 150 kΩ: C11152-50, C11152-51 10 kΩ 1 2 DON'T USE 3 4 0 V to +5 V* TTL logic High: HV-ON TTL logic Low : HV-OFF 6 5 6 +15 V or +12 V 10 kΩ 7 1 V MAX. 2 50 kΩ 3 4 5 6 V MIN. TTL logic High: HV-ON TTL logic Low : HV-OFF 7 PIN ASSIGNMENT 1 Vref +5.2 V Typ. 2 Vcont 3 Vcont GND** 4 ON / OFF IN 5 GND** 6 Vcc +15 V or +12 V 7 HV MONITOR OUT 8 HV OUT 9 HV GND +15 V or +12 V * The instability in the external controlling voltage should be minimized as it directly affects the output voltage quality. ** Never connect the pin number 3 and 5 directly and externally. TACCC0146EA High Voltage Power Supply Modules 4 W Output 2000 V / 2 mA C9619 Series Parameter C9619 +15 ± 1 120 380 C9619-01 +12 ± 1 100 460 0 to -2000 -320 to -2000 Input Voltage C9619-51 C9619-50 +12 ± 1 +15 ± 1 100 120 460 380 0 to +2000 +320 to +2000 with no load Typ. with full load Typ. Variable Output Voltage Range Specification Guaranteed Output Voltage Range Max. 2 Output Current ±0.03 ±0.03 ±0.01 ±0.01 Line Regulation Against ± 1 V Input Change AB Typ. Load Regulation Against 0 % to 100 % Typ. ±0.03 Load Change A Typ. 0.003 % (60 mV) Ripple / Noise (p-p) AB By external controlling voltage (0 V to +5 V) or external potentiometer (50 kΩ) Output Voltage Control 97 Typ. 110 Controlling Voltage Input Impedance Typ. +5.2 Reference Voltage Output Controlling voltage × 400 Output Voltage Setting (Absolute Value) Typ. 150 Output Voltage Rise Time (0 % / 99 %) AB Typ. Typ. ±0.01 Temperature Coefficient AB 0 to +40 Operating Ambient Temperature AB Below 85 Operating Ambient Humidity C -20 to +60 Storage Temperature Below 90 Storage Humidity C Typ. 100 Weight Units protected against reversed power input, reversed / excessive controlling Protective Functions voltage input, continuous overloading / short circuit in output Input Current A NOTE: AAt maximum output voltage BAt maximum output current Unit V mA V V mA % % — — kΩ V V ms %/°C °C % °C % g — CNo condensation ■Dimensional Outline (Unit: mm) 8 MIN. 1 4 1 2 5 7.5 10 7.5 32 25 0.5 4 2 5- 1 15 62 45 3 5 4 45 TACCA0291EA ■Output Voltage Control ●By External Voltage +12 V/+15 V ●By External Potentiometer +12 V/+15 V PIN ASSIGNMENT q Vcc +12 V or +15 V w GND e Vcont r Vref +5.2 V Typ. t HV OUT 0 V to +5 V* CW DON'T USE 50 kΩ MIN. MAX. LOAD * The instability in the external controlling voltage should be minimized as it directly affects the output voltage quality. LOAD TACCC0139EA 7 High Voltage Power Supply Modules 10 W Output 2000 V / 5 mA C11784 Series Parameter C11784-52 C11784-12 Unit V +24 ± 1.2 55 530 Input Voltage with no load Typ. with full load Typ. 0 to +2000 Variable Output Voltage Range 0 to -2000 +320 to +2000 Specification Guaranteed Output Voltage Range -320 to -2000 Max. 5 Output Current ±0.01 Line Regulation Against ± 1.2 V Input Change AB Typ. Load Regulation Against 0 % to 100 % ±0.01 Typ. Load Change A 50 Ripple / Noise (p-p) AB Typ. Output Voltage Control By external controlling voltage (0 V to +5 V) or external potentiometer (50 kΩ) Controlling Voltage Input Impedance 640 Typ. Reference Voltage Output +5.3 Typ. Output Voltage Setting (Absolute Value) Typ. Controlling voltage × 400 Output Voltage Rise Time (0 % / 99 %) AB Typ. 150 Temperature Coefficient AB ±0.005 Typ. High Voltage Monitor Output 0 to +5 (Output impedance 10 kΩ) Current Monitor Output 0 to +5 (Output impedance 10 kΩ) ON / OFF Input TTL positive logic ON / OFF Input Impedance 30 Operating Ambient Temperature AB 0 to +50 Operating Ambient Humidity C Below 85 Storage Temperature -20 to +60 Storage Humidity C Below 85 Weight 100 Typ. Units protected against reversed power input, reversed / excessive controlling Protective Functions voltage input, continuous overloading / short circuit in output Input Current A NOTE: AAt maximum output voltage. BAt maximum output current. ■Dimensional Outline (Unit: mm) 45 ●By External Voltage 15 1 4 0.5 o !0 4 e r 1.5 w t y 10 kΩ u V 1.5 TACCA0315EA 10 kΩ i q w e r t 10 kΩ y u i MAX. V V DON'T USE +24 V 20 o 640 kΩ 10 3.96 3.96 × 7 q 22.5 — ●By External Potentiometer 640 kΩ 10 kΩ 9 mV — kΩ V V ms %/°C V V — kΩ °C % °C % g LOAD !0 32 1 2 3 4 5 6 7 8 % CNo condensation LOAD 8- 1.14 V V mA % ■Output Voltage Control 62 2 mA 0 V to +5 V * TTL logic High: HV-ON TTL logic Low : HV-OFF PIN ASSIGNMENT q Vcc +24 V w Vcc GND ** e ON / OFF IN r Vcont GND ** t Vcont V MIN. +24 V 50 kΩ TTL logic High: HV-ON TTL logic Low : HV-OFF y Vref +5.3 V Typ. u CURRENT MONITOR OUT i HV MONITOR OUT o HV GND !0 HV OUT * The instability in the external controlling voltage should be minimized as it directly affects the output voltage quality. ** Never connect the pin number 2 and 4 directly and externally. TACCC0158EA 8 High Voltage Power Supply Modules 10 W Output 1000 V / 10 mA C12446 Series Parameter C12446-12 C12446-52 Unit V mA mA V V mA % +24 ± 1.2 55 550 Input Voltage with no load Typ. with full load Typ. Variable Output Voltage Range 0 to -1000 0 to +1000 Specification Guaranteed Output Voltage Range -200 to -1000 +200 to +1000 Output Current Max. 10 Line Regulation Against ± 1.2 V Input Change AB Typ. ±0.01 Load Regulation Against 0 % to 100 % Typ. ±0.01 Load Change A Ripple / Noise (p-p) AB Typ. 50 Output Voltage Control By external controlling voltage (0 V to +5 V) or external potentiometer (50 kΩ) Typ. 640 Controlling Voltage Input Impedance +5.3 Typ. Reference Voltage Output Controlling voltage × 200 Output Voltage Setting (Absolute Value) Typ. 150 Output Voltage Rise Time (0 % / 99 %) AB Typ. Typ. ±0.005 Temperature Coefficient AB 0 to +5 (Output impedance 10 kΩ) High Voltage Monitor Output 0 to +5 (Output impedance 10 kΩ) Current Monitor Output TTL positive logic ON / OFF Input 30 ON / OFF Input Impedance 0 to +50 Operating Ambient Temperature AB Below 85 Operating Ambient Humidity C -20 to +60 Storage Temperature Below 85 Storage Humidity C 100 Typ. Weight Units protected against reversed power input, reversed / excessive controlling Protective Functions voltage input, continuous overloading / short circuit in output Input Current A NOTE: AAt maximum output voltage BAt maximum output current ■Dimensional Outline (Unit: mm) 45 ●By External Voltage 15 1 4 0.5 ●By External Potentiometer LOAD !0 o !0 4 640 kΩ 10 kΩ e r 1.5 w t u V 1.5 +24 V 22.5 y 10 kΩ 20 TACCA0315EA 10 kΩ i q w e r t 10 kΩ y u i MAX. V V DON'T USE 10 3.96 3.96 × 7 q 9 o 640 kΩ 32 1 2 3 4 5 6 7 8 — CNo condensation LOAD 8- 1.14 mV — kΩ V V ms %/°C V V — kΩ °C % °C % g ■Output Voltage Control 62 2 % 0 V to +5 V * TTL logic High: HV-ON TTL logic Low : HV-OFF PIN ASSIGNMENT q Vcc +24 V w Vcc GND ** e ON / OFF IN r Vcont GND ** t Vcont V MIN. +24 V 50 kΩ TTL logic High: HV-ON TTL logic Low : HV-OFF y Vref +5.3 V Typ. u CURRENT MONITOR OUT i HV MONITOR OUT o HV GND !0 HV OUT * The instability in the external controlling voltage should be minimized as it directly affects the output voltage quality. ** Never connect the pin number 2 and 4 directly and externally. TACCC0158EA 9 High Voltage Power Supply Modules 36 W Output 1800 V / 20 mA C11323 Series Parameter Input Voltage Input Current A with full load Typ. Variable Output Voltage Range Specification Guaranteed Output Voltage Range Output Current Max. Line Regulation Against ±1.2 V Typ. Input Change AB Load Regulation Against 0 % to 100 % Typ. Load Change A AB Ripple / Noise (p-p) Typ. C11323-02 C11323-02-R1/-R2 C11323-52 C11323-52-R1/-R2 +24 ± 1.2 1.7 0 to -1800 0 to +1800 -300 to -1800 +300 to +1800 20 Unit V A V V mA ±0.01 % ±0.01 % 40 mV See output voltage See remote control See output voltage See remote control Output Voltage Control — control diagrams below diagram below control diagrams below diagram below Reference Voltage Output +6.3 — +6.3 — Typ. V Output Voltage Setting (Absolute Value) Typ. Controlling voltage × 300 Controlling voltage × 300 — — V Output Voltage Rise Time (0 % ➝ 99 %) AB Typ. 100 ms Temperature Coefficient AB ±0.005 Typ. % / °C High Voltage Monitor Output 0 to +5 (Output impedance 10 kΩ) V Current Monitor Output 0 to +5 (Output impedance 10 kΩ) V ON /OFF Input TTL negative logic — ON /OFF Input Impedance 1 kΩ Operating Ambient Temperature AB 0 to +50 °C Operating Ambient Humidity C Below 85 % Storage Temperature -20 to +60 °C Storage Humidity C Below 85 % Weight Typ. 230 g Units protected against reversed power input, reversed / excessive controlling Protective Functions — voltage input, continuous overloading / short circuit in output NOTE: AAt maximum output voltage BAt maximum output current ■Dimensional Outline (Unit: mm) CNo condensation * -R1 type: RS-232 control, -R2 type: RS-485 control 3.5 5 51 40 HV OUT GND 98 118 126 CONNECTOR (Molex 053517-0810) 27 Accessory (Supplied) Molex Connector plug: 051103-0800 Molex Terminal : 050752-0800 1······8 Output cable length: 450 mm (Min.) PIN NUMBER ■Output Voltage Control (except for -R1, -R2) TACCA0302EA ■Remote Control (-R1, -R2 only) ●By External Voltage ●By External Potentiometer HV OUT 2 3 HV OUT GND 150 kΩ 1 4 10 kΩ 5 LOAD LOAD LOAD 6 GND 10 kΩ 7 150 kΩ 8 1 2 3 4 5 10 kΩ 6 10 kΩ 7 8 DON'T USE V +24 V 10 0 V to +6 V * V MIN. +24 V 5 kΩ MAX. V V PIN ASSIGNMENT 1 Vcc +24 V 2 Vcc GND ** 3 Vcont GND ** 4 Vcont 5 Vref +6.3 V Typ. 6 ON /OFF IN 7 CURRENT MONITOR OUT 8 HV MONITOR OUT * The instability in the external controlling voltage should be minimized as it directly affects the output voltage quality. ** Never connect the pin number 2 and 3 directly and externally. TACCC0145EA HV OUT 1 2 3 GND 4 5 DON'T USE T×D R×D +24 V 6 7 8 DON'T DON'T USE USE PIN ASSIGNMENT 1 Vcc +24 V 2 Vcc GND 3 Transmit Data (T × D Output) with respect to GND (Pin 2) 4 Receive Data (R × D Input) with respect to GND (Pin 2) 5 NC 6 ON / OFF IN 7 NC 8 NC -R1: RS-232 9600 bps, Data 8 bit, Stop 1 bit, None Parity -R2: RS-485 Multi Drop, 32 Node Max., Half Duplex TACCC0147EA High Voltage Power Supply Modules 45 W Output 1500 V / 30 mA C12766 Series Parameter C12766-12 C12766-52 +24 ± 1.2 65 2.1 Input Voltage with no load Typ. with full load Typ. Variable Output Voltage Range 0 to -1500 0 to +1500 Specification Guaranteed Output Voltage Range -240 to -1500 +240 to +1500 Output Current Max. 30 Line Regulation Against ± 1.2 V Input Change AB Typ. ±0.01 Load Regulation Against 0 % to 100 % Load Change A Typ. ±0.01 Ripple / Noise (p-p) AB Typ. 75 Output Voltage Control By external controlling voltage (0 V to +5 V) or external potentiometer (50 kΩ) Controlling Voltage Input Impedance Typ. 640 Reference Voltage Output Typ. +5.3 Output Voltage Setting (Absolute Value) Controlling voltage × 300 Typ. 1500 Output Voltage Rise Time (0 % / 99 %) AB Typ. Typ. ±0.01 Temperature Coefficient AB 0 to +5 (Output impedance 10 kΩ) High Voltage Monitor Output 0 to +5 (Output impedance 10 kΩ) Current Monitor Output TTL positive logic ON / OFF Input 30 ON / OFF Input Impedance 0 to +50 Operating Ambient Temperature AB Below 85 Operating Ambient Humidity C Storage Temperature -20 to +60 Storage Humidity C Below 85 290 Weight Typ. Units protected against reversed power input, reversed / excessive controlling Protective Functions voltage input, continuous overloading / short circuit in output Input Current A NOTE: AAt maximum output voltage BAt maximum output current Unit V mA A V V mA % % mV — kΩ V V ms %/°C V V — kΩ °C % °C % g — CNo condensation ■Dimensional Outline (Unit: mm) 72 60 50 GND HV OUT 4- 3.8 107 116 CONNECTOR (B8P-VH-FB-B) 1.5 Accessory (Supplied) JST HSG VHR-8N JST CNT BVH-21T-P1.1 (10 pcs) 25.5 127 1······8 Output cable lenght: 450 mm (Min.) PIN NUMBER TACCA0331EB ■Output Voltage Control ●By External Voltage ●By External Potentiometer LOAD HV OUT LOAD GND HV OUT GND 640 kΩ 640 kΩ 10 kΩ q w e r t y 10 kΩ u 10 kΩ i q w e r t 10 kΩ y u i MAX. V V DON'T USE V +24 V 0 V to +5 V * TTL logic High: HV-ON TTL logic Low : HV-OFF V MIN. +24 V 50 kΩ TTL logic High: HV-ON TTL logic Low : HV-OFF PIN ASSIGNMENT q Vcc +24 V w Vcc GND ** e ON / OFF IN r Vcont GND ** t Vcont y Vref +5.3 V Typ. u CURRENT MONITOR OUT i HV MONITOR OUT * The instability in the external controlling voltage should be minimized as it directly affects the output voltage quality. ** Never connect the pin number 2 and 4 directly and externally. TACCC0158EA 11 Bench-top Type High Voltage Power Supplies 4 W Output 2000 V / 1.8 mA C9525 Series Multiple outputs of ±5 V, ±15 V and high voltage (+2000 V, -2000 V) USB Control Parameter High Voltage Power Supply Section ±5 V Power Supply Section ±15 V Power Supply Section C9525-02/C9525-03 0 V to -2000 V (variable) Output Voltage C9525-52/C9525-53 0 V to +2000 V (variable) ±5 V ± 0.25 V (fixed) ±15 V ± 0.75 V (fixed) Specification Guaranteed C9525-02/C9525-03 -320 V to -2000 V (variable) C9525-52/C9525-53 +320 V to +2000 V (variable) Output Voltage Maximum Output Current 500 mA 1.8 mA 200 mA Line Regulation Max. ±0.1 % ±0.005 % ±0.1 % (For 10 % change in line voltage) AB Load regulation Max. ±1 % ±0.03 % ±0.5 % (For 0 % to 100 % change in load) A AB Typ. 0.06 % 0.003 % 0.02 % Ripple / noise (p-p) ±0.05 %/h ±0.05 %/h ±0.05 %/h Drift (After 30 minute warm-up) AB Typ. Typ. ±0.01 %/°C ±0.01 %/°C ±0.005 %/°C Temperature Coefficient AB — ±(0.1 % +2 V) — High Voltage Output Monitoring Accuracy A Typ. DIN-R (6 pins) SHV-R Output Connector AC 100 V to AC 240 V AC Input Voltage Max. 60 V·A Power Consumption AB 0 °C to +40 °C Operating Ambient Temperature AB Below 85 % Operating Ambient Humidity C -20 °C to +50 °C Storage Temperature Below 90 % Storage Humidity C Approx. 3.0 kg Weight NOTE: AAt maximum output Voltage BAt maximum output Current CNo condensation Accessories 1High voltage output cable (1.5 m long) terminated with SHV-P E1168-17 ................................. 1 2AC line cable (2 m long) ............................................................................................................. 1 C9525-02/C9525-52: AC cable with a rating of 125 V C9525-03/C9525-53: AC cable with a rating of 250 V 33P/2P connector AC adapter (C9525-02 / C9525-52 only) ........................................................ 1 4USB cable (1.5 m long) with filter ............................................................................................... 1 5Low voltage power supply section DIN connector plugs ............................................................ 2 6CD-R (Containing instruction manual, sample software) ........................................................... 1 7Clamp filter ................................................................................................................................. 2 ■Dimensional Outline (Unit: mm) 246 ± 1 312 ± 1 HV OUT 70 ± 1 MODEL C9525 HIGH VOLTAGE POWER SUPPLY POWER USB ON OFF HV OUTPUT 50* * The height of the C9525 is 120 mm with front legs extended. 12 LV OUTPUT B 15 A TACCA0290EA Bench-top Type High Voltage Power Supplies 7 W Output 3500 V / 2 mA C9727 Series Multiple outputs of ±5 V, ±15 V and high voltage (+3500 V, -3500 V) USB Control Parameter High Voltage Power Supply Section ±5 V Power Supply Section ±15 V Power Supply Section C9727/C9727-01 0 V to -3500 V (variable) Output Voltage C9727-50/C9727-51 0 V to +3500 V (variable) ±5 V ± 0.25 V (fixed) ±15 V ± 0.75 V (fixed) Specification Guaranteed C9727/C9727-01 -320 V to -3500 V (variable) C9727-50/C9727-51 +320 V to +3500 V (variable) Output Voltage Maximum Output Current 500 mA 2 mA 200 mA Line Regulation Max. ±0.1 % ±0.005 % ±0.1 % (For 10 % change in line voltage) AB Load regulation Max. ±1 % ±0.03 % ±0.5 % (For 0 % to 100 % change in load) A AB Typ. 0.06 % 0.003 % 0.02 % Ripple / noise (p-p) ±0.05 %/h ±0.05 %/h ±0.05 %/h Drift (After 30 minutes warm-up) AB Typ. Typ. ±0.01 %/°C ±0.01 %/°C ±0.005 %/°C Temperature Coefficient AB — ±(0.1 % +2 V) — High Voltage Output Monitoring Accuracy A Typ. SHV-R DIN-R (6 pins) Output Connector AC 100 V to AC 240 V AC Input Voltage Max. 60 V·A Power Consumption AB 0 °C to +40 °C Operating Ambient Temperature AB Below 85 % Operating Ambient Humidity C -20 °C to +50 °C Storage Temperature Below 90 % Storage Humidity C Approx. 3.1 kg Weight NOTE: AAt maximum output Voltage BAt maximum output Current CNo condensation Accessories 1High voltage output cable (1.5 m long) terminated with SHV-P E1168-19 ................................. 1 2AC line cable .............................................................................................................................. 1 C9727/C9727-50: AC cable with a rating of 125 V C9727-01/C9727-51: AC cable with a rating of 250 V 33P/2P connector AC adapter (C9727 / C9727-50 only) ............................................................. 1 4USB cable (1.5 m long) with filter ............................................................................................... 1 5Low voltage power supply section DIN connector plugs ............................................................ 2 6CD-R (Containing instruction manual, sample software) ........................................................... 1 ■Dimensional Outline (Unit: mm) 246 ± 1 312 ± 1 USB ON OFF HV OUTPUT 50* A LV OUTPUT B 15 HV OUT 70 ± 1 MODEL C9727 HIGH VOLTAGE POWER SUPPLY POWER * The height of the C9727 is 120 mm with front legs extended. TACCA0290JA 13 ■HANDLING PRECAUTIONS ●Products listed in this catalog generate high voltage. Do not directly touch the power output terminals with bare hands. Even when power is off, the internal parts may retain a high voltage, so do not touch them directly. Touching these may cause electrical shock, injury, or death. ●Do not try to disassemble, modify or repair the product by yourself. Doing so is dangerous because some internal parts of the product generate high voltage. ●Use or store the product within the ambient temperature and humidity range specified in the datasheet. ●Use caution when moving the product to a room with large changes in humidity or temperature since condensation may occur. Do not operate the product with wet or moist hands. Doing so may cause electrical shock or fire. ●Do not operate the product in locations subject to excessive dust, splashing from liquid such as water droplets, vibration or fire. Operation in such locations may result in fire. ●Do not operate the product in locations where flammable or explosive gases or vapors are present. Operation in such environments is extremely dangerous since it may cause explosion or fire. ●Ensure sufficient insulation and creepage distances on the printed circuit board where the high-voltage power module will be mounted. ●When connecting a benchtop high-voltage power supply to the AC power, always plug the AC power cable into a grounded 3-prong AC outlet. If a grounded 3-prong AC outlet is not available, then use the supplied 3pin to 2-pin converter plug and securely ground the product using the grounding lead coming out of the 3-pin to 2-pin converter plug. ●Avoid installing a benchtop high-voltage power supply in such a way that the air vents are blocked or ventilation around it is interrupted or ambient temperature may rises excessively. Operation in such locations may result in fire. ●When replacing the fuse in a benchtop high-voltage power supply, use a fuse with the specified rating. Before replacing the fuse, be sure to turn off the power switch and unplug the AC cable from the power outlet. Do not use a fuse other than those specified and do not short-circuit the fuse terminals by using metal wire, etc. Failure to follow these replacement instructions may cause electrical shock or fire. ●When using the high-voltage output receptacle for a benchtop high-voltage power supply, always keep the high-voltage output cable (with an SHV plug) connected to that receptacle. If using a cable instead of the supplied high-voltage output cable, make sure the cable can withstand more than the required high voltage. Using a cable with a low breakdown voltage may cause electrical shock or malfunction. When not using the high-voltage output receptacle, always fit the protective cap onto it. Failure to follow this instruction may cause electrical shock. ●If the product malfunctions or any abnormal condition occurs during use, immediately disconnect the power source. 14 ■SAFETY ALERT SYMBOLS, SIGNAL WORDS, AND PICTORIAL SIGNS The following alert symbols, signal words, and pictorial signs are shown on the product to indicate warnings and cautions that must be observed to ensure safe product use. <Safety alert symbols and signal words> WARNING "WARNING" indicates a potentially hazardous situation which, if not avoided, could result in death or serious injury. CAUTION "CAUTION" indicates a potentially hazardous situation which, if not avoided, could result in minor or moderate injury or damage to the equipment. <Pictorial sign> Electrical Shock Hazard A high voltage is present. ■PRODUCT WARRANTY PERIOD AND COVERAGE Products listed in this catalog are warranted for a period of one year from the date of delivery. If a failure is found in a product within the warranty period that was caused by defects in the workmanship or materials used in the manufacture, then we will repair or replace it free of charge. The warranty is limited to repair or replacement of the defective product. Even if within the warranty period, this warranty shall not apply to failures in cases where the product has been misused, mishandled, modified or repaired by the customer. 15 ■MEMO 16 HAMAMATSU PHOTONICS K.K. www.hamamatsu.com HAMAMATSU PHOTONICS K.K., Electron Tube Division 314-5, Shimokanzo, Iwata City, Shizuoka Pref., 438-0193, Japan, Telephone: (81)539/62-5248, Fax: (81)539/62-2205 U.S.A.: Hamamatsu Corporation: 360 Foothill Road, Bridgewater. N.J. 08807-0910, U.S.A., Telephone: (1)908-231-0960, Fax: (1)908-231-1218 E-mail: [email protected] Germany: Hamamatsu Photonics Deutschland GmbH: Arzbergerstr. 10, D-82211 Herrsching am Ammersee, Germany, Telephone: (49)8152-375-0, Fax: (49)8152-2658 E-mail: [email protected] France: Hamamatsu Photonics France S.A.R.L.: 19, Rue du Saule Trapu, Parc du Moulin de Massy, 91882 Massy Cedex, France, Telephone: (33)1 69 53 71 00, Fax: (33)1 69 53 71 10 E-mail: [email protected] United Kingdom: Hamamatsu Photonics UK Limited: 2 Howard Court, 10 Tewin Road, Welwyn Garden City, Hertfordshire AL7 1BW, United Kingdom, Telephone: (44)1707-294888, Fax: (44)1707-325777 E-mail: [email protected] North Europe: Hamamatsu Photonics Norden AB: Torshamnsgatan 35 SE-164 40 Kista, Sweden, Telephone: (46)8-509-031-00, Fax: (46)8-509-031-01 E-mail: [email protected] TACC0005E01 Italy: Hamamatsu Photonics Italia S.r.l.: Strada della Moia, 1 int. 6, 20020 Arese (Milano), Italy, Telephone: (39)02-93581733, Fax: (39)02-93581741 E-mail: [email protected] DEC. 2014 IP China: Hamamatsu Photonics (China) Co., Ltd.: B1201 Jiaming Center, No.27 Dongsanhuan Beilu, Chaoyang District, Beijing 100020, China, Telephone: (86)10-6586-6006, Fax: (86)10-6586-2866 E-mail: [email protected] (1000)