EMCO A Series Datasheet by XP Power

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IV XP Power —-:
A Series DC-HVDC Converter
Input
Output
Characteristic Minimum Typical Maximum Units Notes & Conditions
Output Voltage 6,000 VDC See Models and Ratings Table
Output Current 15 mA See Models and Ratings Table
Output Voltage Tolerance +10, -10 % At Max Vout, Full Load
Minimum Load No minimum load required
Regulation Unregulated, Output is proportional to Input. See Application Notes.
Short Circuit Protection Protected against short circuit conditions for a minimum 1 minute.
Ripple and Noise 5%See Models and Ratings Table.
Characteristic Minimum Typical Maximum Units Notes & Conditions
Input Voltage 0.7 5,12,24 VDC See Models and Ratings Table.
Input Current 550 mA See Models and Ratings Table.
Control Voltage Input Analog Control Voltage adjusts output from 0 to 100%, not to exceed Input Voltage, see Application Notes on Page 8 for details.
xxx Series
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1
Notes
1. Maximum output current is available at maximum rated output voltage, and
derates linearly as input voltage is decreased.
2. Output Voltage is load dependent. Under light or no-load conditions, reduce
the Input Voltage so maximum rated Output Voltage is not exceeded.
3. Specifications are after 30 minute warm-up, full-load at 25°C, unless otherwise
noted.
4. Proper thermal management techniques are required to maintain safe case
temperature at maximum power output.
Output voltages from 100V to 6000V
Output Proportional to Input
0.7VDC Turn-on Voltage
Extremely Low Profile <0.25”
Input to Output Isolation
Short Circuit Protection
Control Pin
No minimum load
3 Year Warranty
Dimensions:
All models:
Height x Width: 0.25 x 0.45" (6.35 x 11.43mm)
100V to 2000V outputs:
Length: 0.92" (23.37mm)
3000V to 5000V outputs:
Length: 1.13" (28.69mm)
Key Applications:
• Avalanche Photo Diodes
• Photo Multiplier Tubes
• Electrophoresis
• Capacitor Charging
• Sustaining Ion Pumps
• Piezo Devices
• Handheld Instruments
1 & 1.5 Watt
The A Series is a broad line of ultra-miniature, DC to HV DC converters that set an industry
standard in high voltage miniaturization. This unique package occupies less than one tenth of a
cubic inch of volume, and an extremely low profile of only 0.250 inches (6.35mm).
Controllable output voltages range from 100 volts to 6000 volts. The output is directly
proportional to the input voltage and is linear from <0.7V input to maximum input voltage,
allowing for an adjustable output voltage. Output is load dependent. Isolation permits <±500V
bias on output return. No external components or minimum load are required.
A separate high impedance control pin is standard and is designed for external error amplifier
and/or DAC control in closed or open loop systems. Or simply connect the control pin to the
+ input for proportional input to output operation. These component-sized converters are ideal for
applications requiring minimal size and weight.
6000V outputs:
Length: 1.33" (33.78mm)
m m . (-I IN OSCILLATOR RECTIFIER 0 "V our CONTROL O—l HIGH VOLTAGE TRANSFORMER Onvnm
A Series
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DC-HVDC Converter
Environmental
Safety Approvals
Safety Agency Safety Standard Notes & Conditions
UL and TUV IEC/UL/CSA/EN 62368
CE CE Directive, RoHs and LVD Where applicable
RoHS RoHS 2 and 3 Directive (2011/65/EU) Where applicable
General
Characteristic Minimum Typical Maximum Units Notes & Conditions
Operating Temperature (case) -25 +75 °C Standard operating temp, all models
Operating Temperature (case) -55 +85 °CExtended operating temp, -T models
Storage Temperature -55 +105 °C
Humidity 95 %RH Non-condensing
Cooling Natural Convection
Characteristic Minimum Typical Maximum Units Notes & Conditions
Isolation: Input to Output 500 V < ±500 VDC Bias on Output Return
Leakage Current 100 nA
Switching Frequency 50350 kHz
Construction Solid vacuum encapsulation, UL 94 V-0 rated.
Mean Time Between Failure 1.862 MHrs Per Bellcore TR 332
Block Diagram
Pin Connections
Pin Function
1 (-) Input
2 (+) Input
3 HV Out
4 HV RTN
5 Control
D 1 I XP Power 11pm eumm | A Models - 1 wan u to 100V IDmA 5v <5% a01="" n75="" 0="" to="" 100v="" idma="" 12v=""><1ouma><185ma><5% aoinjq="" u="" to="" 100v="" idma="" 12v=""><1ouma><185ma><5% aoinjqt="" u="" to="" 100v="" idma="" 24v=""><25ma><5% aoinqat="" 0="" 1o="" +1ouv="" idma="" 5v=""><5% au1="" p751="" om="" +1ouv="" idma="" 12v=""><1ouma><185ma><5% adtpje="" om="" +1ouv="" idma="" 12v=""><1ouma><185ma><5% adtpjet="" 0="" 1o="" +1ouv="" idma="" 24v=""><25ma><5% ad1p724t="" u="" to="" 2mm="" 5ma="" 5v=""><1 %=""><5 u="" to="" 2mm="" 5ma="" 5v=""><1 %="" aoenvst="" u="" to="" 2mm="" 5ma="" 12v=""><1ouma><185ma><1 %="" aoqnjq="" u="" to="" 2mm="" 5ma="" 12v=""><1ouma><185ma><1 %="" aoqnjqt="" u="" to="" 2mm="" 5ma="" 24v=""><25ma><1 %="" aoqnvqa="" u="" to="" 2mm="" 5ma="" 24v=""><25ma><1 %="" aoqnvqat="" 0="" 1o="" +2ouv="" 5ma="" 5v=""><1 %="" auqpvs="" 0="" 1o="" +2ouv="" 5ma="" 5v=""><1 %="" auqpvst="" 0="" 1o="" +2ouv="" 5ma="" 12v=""><1ouma><185ma><1 %="" adepje="" 0="" 1o="" +2ouv="" 5ma="" 12v=""><1ouma><185ma><1 %="" adepjet="" 0="" 1o="" +2ouv="" 5ma="" 24v=""><25ma><1 %="" adepvea="" 0="" 1o="" +2ouv="" 5ma="" 24v=""><25ma><1 %="" ad2p724t="" 0="" 1o="" +250v="" ama="" 5v=""><1ouma><185ma><1ouma><185ma><1ouma><185ma><12t u="" to="" auov="" 2="" 5ma="" 12v=""><1ouma><185ma><1ouma><185ma><1ouma><185ma><1ouma><185ma><1ouma><185ma><1%><5 u="" to="" saw="" 1="" e7ma="" 12v=""><1ouma><185ma><1% aosnjq="" 0="" 1o="" +eouv="" 1="" e7ma="" 5v=""><1 %="" augprfi="" 0="" 1o="" +eouv="" 1="" e7ma="" 5v=""><1 %="" augpvst="" u="" to="" juov="" 1="" aama="" 24v=""><25ma><1 %=""><2a u="" to="" mw="" 1="" 25ma="" 24v=""><25ma><1 %="" aoenqa="" 0="" 10="" wow="" 1="" 25ma="" 5v=""><1 %=""><5 010+8c|dv="" 125ma="" 12v=""><1ouma><185ma><1% adepje="" 0="" 1a="" r1uuov="" 1ma="" 12v=""><1ouma><185ma «1.5%="" mona?="" o="" to="" +1oouv="" 1ma="" 5v=""><1ouma><185ma «1.5%="" a1="" 017712="" 0="" 1a="" r12uov="" o="" ssma="" 5v=""><1ouma><185ma><25ma><2a om="" +12ouv="" oaama="" 12v=""><1ouma><185ma><1ouma><185ma «1.4%="" msnjq="" 0="" 1a="" r1suov="" o="" sema="" 24v=""><25ma><2at 0="" 1a="" r1suov="" o="" sema="" 5v=""><1ouma><185ma «1.4%="" a1="" 517712="" 0="" to="" +151mv="" o="" sema="" 24v=""><25ma><25ma><1ouma><185ma «1.3%=""><12t o="" to="" +2oouv="" o="" 5ma="" 5v=""><1ouma><185ma «1.3%="" aeupje="">
A Series
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DC-HVDC Converter
3
Models & Ratings
Output Voltage Output Current Input Voltage Input Current Ripple Model Number
No Load Full Load
A Models - 1 Watt
0 to -100V 10mA 5V<300mA <500mA <5% A01N-5
0 to -100V 10mA 12V <100mA <185mA <5% A01N-12
0 to -100V 10mA 12V <100mA <185mA <5% A01N-12T
0 to -100V 10mA 24V <25mA <60mA <5% A01N-24T
0 to +100V 10mA 5V<300mA <500mA <5% A01P-5T
0 to +100V 10mA 12V <100mA <185mA <5% A01P-12
0 to +100V 10mA 12V <100mA <185mA <5% A01P-12T
0 to +100V 10mA 24V <25mA <60mA <5% A01P-24T
0 to -200V 5mA 5V<300mA <500mA <1% A02N-5
0 to -200V 5mA 5V <300mA <500mA <1% A02N-5T
0 to -200V 5mA 12V <100mA <185mA <1% A02N-12
0 to -200V 5mA 12V <100mA <185mA <1% A02N-12T
0 to -200V 5mA 24V <25mA <60mA <1% A02N-24
0 to -200V 5mA 24V <25mA <60mA <1% A02N-24T
0 to +200V 5mA 5V<300mA <500mA <1% A02P-5
0 to +200V 5mA 5V <300mA <500mA <1% A02P-5T
0 to +200V 5mA 12V <100mA <185mA <1% A02P-12
0 to +200V 5mA 12V <100mA <185mA <1% A02P-12T
0 to +200V 5mA 24V <25mA <60mA <1% A02P-24
0 to +200V 5mA 24V <25mA <60mA <1% A02P-24T
0 to +250V 4mA 5V<300mA <500mA <0.9% A025P-5
0 to -300V 3.33mA 12V <100mA <185mA <0.7% A03N-12
0 to +300V 3.33mA 12V <100mA <185mA <0.7% A03P-12
0 to +300V 3.33mA 12V <100mA <185mA <0.7% A03P-12T
0 to -400V 2.5mA 12V <100mA <185mA <0.5% A04N-12T
0 to +400V 2.5mA 5V <300mA <500mA <0.5% A04P-5
0 to +400V 2.5mA 12V <100mA <185mA <0.5% A04P-12T
0 to -500V 2mA 12V <100mA <185mA <0.5% A05N-12
0 to +500V 2mA 5V <300mA <500mA <0.5% A05P-5
0 to +500V 2mA 5V <300mA <500mA <0.5% A05P-5T
0 to +500V 2mA 12V <100mA <185mA <0.5% A05P-12
0 to +500V 2mA 12V <100mA <185mA <0.5% A05P-12T
0 to -600V 1.67mA 5V <300mA <500mA <1% A06N-5
0 to -600V 1.67mA 12V <100mA <185mA <1% A06N-12
0 to +600V 1.67mA 5V <300mA <500mA <1% A06P-5
0 to +600V 1.67mA 5V <300mA <500mA <1% A06P-5T
0 to -700V 1.43mA 24V <25mA <60mA <1% A07N-24
0 to -800V 1.25mA 24V <25mA <60mA <1% A08N-24
0 to +800V 1.25mA 5V <300mA <500mA <1% A08P-5
0 to +800V 1.25mA 12V <100mA <185mA <1% A08P-12
0 to -1000V 1mA 12V <100mA <185mA <0.8% A10N-12
0 to +1000V 1mA 5V <300mA <500mA <0.8% A10P-5
0 to +1000V 1mA 5V <300mA <500mA <0.8% A10P-5T
0 to +1000V 1mA 12V <100mA <185mA <0.8% A10P-12
0 to -1200V 0.83mA 5V <300mA <500mA <0.5% A12N-5
0 to -1200V 0.83mA 12V <100mA <185mA <0.5% A12N-12
0 to -1200V 0.83mA 24V <25mA <60mA <0.5% A12N-24
0 to +1200V 0.83mA 12V <100mA <185mA <0.5% A12P-12
0 to +1200V 0.83mA 5V <300mA <500mA <0.5% A12P-5
0 to -1500V 0.66mA 12V <100mA <185mA <0.4% A15N-12
0 to -1500V 0.66mA 24V <25mA <60mA <0.4% A15N-24T
0 to -1500V 0.66mA 5V <300mA <500mA <0.4% A15N-5
0 to +1500V 0.66mA 5V <300mA <500mA <0.4% A15P-5
0 to +1500V 0.66mA 12V <100mA <185mA <0.4% A15P-12
0 to +1500V 0.66mA 24V <25mA <60mA <0.4% A15P-24
0 to +1500V 0.66mA 24V <25mA <60mA <0.4% A15P-24T
0 to -2000V 0.5mA 5V <300mA <500mA <0.3% A20N-5
0 to -2000V 0.5mA 12V <100mA <185mA <0.3% A20N-12T
0 to +2000V 0.5mA 5V <300mA <500mA <0.3% A20P-5
0 to +2000V 0.5mA 12V <100mA <185mA <0.3% A20P-12
D 1 I XP Power No Land Full Load o to +2ooov 0 5m 12v <1oom><1 esma=""><1oom><1 esma=""><25m><1oom><1 esma=""><25m><125m><2soma><2% aho1n42="" o="" lo="" r1oov="" 15m="" 24v=""><4om><1 zoma=""><2% aho1n24="" o="" to="" noov="" 15m="" 12v=""><125m><2soma><2% ahoipjq="" o="" to="" 200v="" 7="" 5m="" 5v="" doom=""><3% ahdznvs="" o="" to="" 200v="" 7="" 5m="" 12v=""><125m><2soma><3% ahdznviz="" o="" to="" +2oov="" 7="" 5m="" 5v="" doom=""><3% ahoqpvs="" o="" to="" +2oov="" 7="" 5m="" 24v=""><4om><1 zoma=""><3% ahoqpvza="" o="" to="" +250v="" em="" 5v="" doom=""><12% ahoqspvs="" o="" to="" +250v="" em="" 12v=""><125m><2soma><12% ahuqspjq="" o="" lo="" aoov="" 3,75m="" 12v=""><125m><2soma><125m><2soma><125m><2soma><125m><2soma><2% ahdsnvs="" o="" to="" +eoov="" 2="" 5m="" 5v="" doom=""><2% ahospvs="" o="" to="" mow="" 1mm="" 5v="" doom=""><12% ahospvs="" o="" lo="" reoov="" 1mm="" 5v="" doom=""><12% ahdqnvs="" o="" to="" +9oov="" 1mm="" 24v=""><4om><1 zoma=""><12% ah09p724="" o="" la="" r1ooov="" 1="" 5m="" 12v=""><125m><2soma><1% ah1on42="" o="" to="" +1ooov="" 1="" 5m="" 12v=""><125m><2soma><1 %="" ahtopjq="" o="" la="" r1zoov="" 125m="" 5v="" doom=""><4om><1 zoma=""><4om><1 zoma=""><125m><2soma><125m><2soma><4om><1 zoma=""><125m><2soma>
A Series
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DC-HVDC Converter
4
Models & Ratings
Output Voltage Output Current Input Voltage Input Current Ripple Model Number
No Load Full Load
0 to +2000V 0.5mA 12V <100mA <185mA <0.3% A20P-12T
0 to -3000V 0.33mA 5V <300mA <500mA <0.3% A30N-5
0 to -3000V 0.33mA 5V<300mA <500mA <0.3% A30N-5T
0 to -3000V 0.33mA 12V <100mA <185mA <0.3% A30N-12
0 to -3000V 0.33mA 24V <25mA <60mA <0.3% A30N-24
0 to +3000V 0.33mA 5V <300mA <500mA <0.3% A30P-5
0 to +3000V 0.33mA 5V <300mA <500mA <0.3% A30P-5T
0 to +3000V 0.33mA 12V <100mA <185mA <0.3% A30P-12
0 to +3000V 0.33mA 24V <25mA <60mA <0.3% A30P-24
0 to -4000V 0.25mA 5V<300mA <500mA <0.3% A40N-5
0 to -4000V 0.25mA 5V <300mA <500mA <0.3% A40N-5T
0 to +4000V 0.25mA 5V <300mA <500mA <0.3% A40P-5
0 to +4000V 0.25mA 5V<300mA <500mA <0.3% A40P-5T
0 to -5000V 0.20mA 5V <300mA <500mA <0.3% A50N-5
0 to -5000V 0.20mA 5V <300mA <500mA <0.3% A50N-5T
0 to +5000V 0.20mA 5V <300mA <500mA <0.3% A50P-5
0 to +5000V 0.20mA 5V<300mA <500mA <0.3% A50P-5T
0 to -6000V 0.16mA 5V <300mA <500mA <0.3% A60N-5
0 to +6000V 0.16mA 5V<300mA <500mA <0.3% A60P-5
0 to +6000V 0.16mA 5V<300mA <500mA <0.3% A60P-5T
AH Models - 1.5 Watt
0 to -100V 15mA 12V <125mA <250mA <2% AH01N-12
0 to -100V 15mA 24V <40mA <120mA <2% AH01N-24
0 to +100V 15mA 12V <125mA <250mA <2% AH01P-12
0 to -200V 7.5mA 5V <300mA <550mA <3% AH02N-5
0 to -200V 7.5mA 12V <125mA <250mA <3% AH02N-12
0 to +200V 7.5mA 5V <300mA <550mA <3% AH02P-5
0 to +200V 7.5mA 24V <40mA <120mA <3% AH02P-24
0 to +250V 6mA 5V <300mA <550mA <1.2% AH025P-5
0 to +250V 6mA 12V <125mA <250mA <1.2% AH025P-12
0 to -300V 5mA 12V <125mA <250mA <0.7% AH03N-12
0 to +300V 5mA 5V <300mA <550mA <0.7% AH03P-5
0 to +300V 5mA 24V <40mA <120mA <0.7% AH03P-24
0 to -400V 3.75mA 12V <125mA <250mA <0.8% AH04N-12
0 to +400V 3.75mA 12V <125mA <250mA <0.8% AH04P-12
0 to -500V 3mA 5V <300mA <550mA <0.7% AH05N-5
0 to -500V 3mA 12V <125mA <250mA <0.75% AH05N-12
0 to +500V 3mA 5V <300mA <550mA <0.7% AH05P-5
0 to +500V 3mA 12V <125mA <250mA <0.7% AH05P-12
0 to -600V 2.5mA 5V <300mA <550mA <2% AH06N-5
0 to +600V 2.5mA 5V <300mA <550mA <2% AH06P-5
0 to +800V 1.87mA 5V <300mA <550mA <1.2% AH08P-5
0 to -900V 1.67mA 5V <300mA <550mA <1.2% AH09N-5
0 to +900V 1.67mA 24V <40mA <120mA <1.2% AH09P-24
0 to -1000V 1.5mA 12V <125mA <250mA <1% AH10N-12
0 to +1000V 1.5mA 12V <125mA <250mA <1% AH10P-12
0 to -1200V 1.25mA 5V <300mA <550mA <0.6% AH12N-5
0 to +1200V 1.25mA 24V <40mA <120mA <0.6% AH12P-24
0 to +1500V 1mA 5V <300mA <550mA <0.6% AH15P-5
0 to +1500V 1mA 24V <40mA <120mA <0.6% AH15P-24
0 to -2000V 0.75mA 12V <125mA <250mA <0.5% AH20N-12
0 to +2000V 0.75mA 5V <300mA <550mA <0.5% AH20P-5
0 to +2000V 0.75mA 12V <125mA <250mA <0.5% AH20P-12
0 to -3000V 0.5mA 5V <300mA <550mA <0.3% AH30N-5
0 to -3000V 0.5mA 24V <40mA <120mA <0.3% AH30N-24
0 to +3000V 0.5mA 5V <300mA <550mA <0.3% AH30P-5
0 to +3000V 0.5mA 12V <125mA <250mA <0.3% AH30P-12
0 to -6000V 0.25mA 5V <300mA <550mA <0.3% AH60N-5
0 to +6000V 0.25mA 5V <300mA <550mA <0.3% AH60P-5
1. All aimen 0.45 (11,43; BLACK ANODIZED ALUMINuM mm 0.92 (23 an EPOXY MVO COMPLIANT 0.25 (635) fi/ ‘ H 0.20 (5.08) a 02516410IA Fms 5 WAGES 0 504 003 we ”a ( ’ (12.9) F (1-52) 4 § + 7 7 1 (.p m t ”35 9a HV OUT $4 ‘HV Rm + (5-97) 0.062 a. 31m (1 57) (a as) + ‘ 2 (o) \N V + + 5 0mm 150-1255 a 430 (10.92) mm BOTI'OM VIEW (11.68) was :3 g m "ML” "" mg m f u 52) r “"N ”I; a m o a! I/ 4 HV MN \ a 236 I ‘ fl» 7' 0|”? J (5 :7) (L57) K 20) IN 0 :17» \5 21M _ ‘ ' \ am am you. n— u w ‘7 (W3, 4* NOTE: u ls recommended that no nines be «1de within 3551;, a me shaded area on me component side of me PWB. XP Power
Mechanical Details
1. All dimensions are in inches (mm)
2. Weight <0.2oz (5.66g)
3. Tolerance: X.XX±0.02 (0.51)
4. Pin Tolerance: ±0.005 (0.127)
See page 2 for Pin Chart.
Notes
A Series
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DC-DC Converter
5
100V - 2,000V
Recommended Layout
M J XP Power m away BLACK ANODIZED ' ‘3 (25 65’ ALuMMUM pm: EPOXV 94w conANr c.25 16.35) 15/ ‘ H 029 (5 may 1_ o 025(61):)“ pm: 5 mass u m 10811.95) H! ‘1) F121;) ; ¢ fl (4 m | 352:; am “Wow t w Rm T ° 33° ‘57 ta as) ‘ ’ ¢ 2 w m v f hem 550-335 0639 (m 23) my BOTTOM VIEW (16.99) mum w osufinu pan c CE W HOLE 5|. r “‘52, ' ' A 4 / . Hm , mm 0 mm 0;“ T , . ,1 "m J (5.97) k ‘1 5y) ‘ n 330 \ 2 m m o (a? \ \6 ET“ _ am we m 2:» (1 u) (‘35:) NOTE: It is recommended mm no mass he mulsd wimin ($873 4. he shaded area on me component skis Mina PWB‘ 1. All dimen
A Series
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DC-HVDC Converter
Mechanical Details
See page 2 for Pin Chart.
1. All dimensions are in inches (mm)
2. Weight 0.25oz (7.09g)
3. Tolerance: X.XX±0.02 (0.51)
4. Pin Tolerance: ±0.005 (0.127)
Notes
6
Recommended Layout
3,000V - 5,000V
M 1 XP Power m (nu) BLMXANODIIED u a: (a: m ALUMINUM PLAYE EPOXY uwcaunwn “mm MFG CODE 15/ 1XXXXXX nm5( uymA PM s was um m (m) I (ma r123 t ms + f! (am 1 (517) um o av Rm “3“ u m M” + A 2 mm a 0.225 . *scmm [am a m (211‘) 0-3" BOWOM VIEW (mm 0 Wfifi‘fim ms m up 5 PL ‘1an ani ons * F n 52) ’ ’— - — /T mm ,’/ . mm a w ouvol J “‘55 T 0 nl l 7‘ M, ‘5'“ m \ 1mm “in \ \5 5".“ ° _ "w non m m P n w anfléy NOTE: n Is recommended ma| no trace: be mad wnmn (233:, a the shadad area on the mmponenl m- Mlhe PM; 1. All aimen
7
A Series
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DC-HVDC Converter
Mechanical Details
1. All dimensions are in inches (mm)
2. Weight <0.3oz (8.49g)
3. Tolerance: X.XX±0.02 (0.51)
4. Pin Tolerance: ±0.005 (0.127)
Notes
Recommended Layout
6,000V
See page 2 for Pin Chart.
% Output voltage U ll XP Power
A Series
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DC-HVDC Converter
824 March 20
Application Notes
0
50
100
150
200
250
300
0 102030405060708090100
% Control voltage
% HV output
Full load output
No load output (A)
No load output (AH)
Safe operating limit
0
10
20
30
40
50
60
70
80
90
100
0 102030405060708090100
% Output voltage
loaded
unloaded (A)
unloaded(AH)
% Input voltage
Typical HV Output vs. Control Voltage
Typical Output vs Input Voltage
For proportional operation, tie the control pin to the input voltage,
or use separately for control as shown below. Do not leave floating.

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DC DC CONVERTER 800V 1.5W
DC DC CONVERTER -300V 1W
DC DC CONVERTER -6000V 1.5W
DC DC CONVERTER -3000V 1W
DC DC CONVERTER 5000V 1W
DC DC CONVERTER -200V 1.5W
DC DC CONVERTER 1500V 1W
DC DC CONVERTER 250V 1.5W
DC DC CONVERTER 1000V 1W
DC DC CONVERTER 250V 1.5W
DC DC CONVERTER 500V 1.5W
DC DC CONVERTER 250V 1W
DC DC CONVERTER -1200V 1W
DC DC CONVERTER -500V 1W
DC DC CONVERTER -600V 1W
DC DC CONVERTER 200V 1W
DC DC CONVERTER 300V 1W
DC DC CONVERTER 400V 1W
DC DC CONVERTER -600V 1W