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E60
High Voltage DC/DC Converter, Proportional, Positive Output, Fixed, Adjustable, 3 W, 500 µA
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- Manufacturer: XP POWER
- Product type:
- No. of Outputs:1 Output; Output Power Max:3W; Output Voltage - Output 1:6kV; Output Current - Output 1:500µA; Output Voltage - Output 2:-; Output Current - Output 2:-; Output Voltage - Ou
- SVHC: No SVHC (15-Jan-2018)
- Depth: 63.5mm
- Width: 38.1mm
- Height: 21.6mm
- Polarity: Positive Output
- Power Rating: 3W
- Product Range: E Series
- No. of Outputs: 1 Output
- Output Power Max: 3W
- Isolation Voltage: 3.5kV
- Output Current Max: 500µA
- Output Voltage Max: 6kV
- Output Voltage Min: 0V
- Input Voltage DC Max: 15V
- Input Voltage DC Min: 0V
- Power Supply Mounting: Through Hole
- DC / DC Converter Type: DIP
- Output Current - Output 1: 500µA
- Output Voltage - Output 1: 6kV
- DC / DC Converter Mounting: Through Hole
- DC / DC Converter Output Type: Fixed, Adjustable
- High Voltage Power Supply Type: Proportional
| Delivery and price | |
|---|---|
| Units per pack | 10 |
| Price | 127.41 € |
| Current stock | 10+ |
| Lead time | 30 days |
Datasheet
## 3 Watts ## **2xxx 2ries** - Output Voltages from 100V to 12kV - Output Voltage Proportional to Input - Low Turn-on Voltage 0.7VDC - Input to Output Isolation - Dual Output - No Minimum Load - 3 Year Warranty The E Series is a broad line of small, component level high voltage converters in a PCB mount package that provides up 3 Watts continuous output power for models up to 7kV (2 Watts for models >7kV). These HV converters feature low ripple and noise, and low EMI/RFI by utilizing a quasi-sinewave oscillator, excellent filtering techniques and a fully enclosed pot-core transformer. The output voltage is directly proportional to the input voltage and is linear from approximately 0.7 volts to maximum input. ## **Dimensions:** ## **E Series:** 2.50 x 1.5 x 0.85" (63.5 x 38.1 x 21.6mm) ## **Key Applications:** - Mass Spectrometry The galvanically isolated output allows for user selectable output polarity. Dual output models with a center-tap pin provide both positive and negative outputs from one module. Some models are provided with an external aluminum box for increased EMI/RFI shielding and rugged mounting. Proven design techniques, classic topology and custom encapsulation formula come together to provide engineers with a clean, reliable, low cost, and easy to integrate high voltage solution. - Electrostatic Chucks - Electrophoresis - Capacitor Charging - Particle Counter - Ignition/Spark - Sustaining Ion Pumps |Characteristic<br>Input Voltage<br>Input Current, No Load<br>Input Current, Full Load|Minimum<br>0.7|Typical|Maximum<br>12, 15<br>175<br>400|Units<br>VDC<br>mA<br>mA|Notes & Conditions<br>See Models and Ratings Table.| |---|---|---|---|---|---| |Characteristic|Minimum|Typical|Maximum|Units|Notes & Conditions| |---|---|---|---|---|---| |Output Voltage|||12,000|VDC|See Models and Ratings Table| |Output Current|||30|mA|See Models and Ratings Table| |Output Voltage Tolerance||+5, -5||%|At Max Vout, Full Load| |Minimum Load|No minimum load required||||| |Regulation|Unregulated, Output is proportional to Input. See Application Notes.||||| |Ripple and Noise|0.05||1.5|%|See Models and Ratings Table.| |Response Time||10||msec|0 to Max Vout, Full Load| ## ~~**Notes**~~ _1. Maximum rated 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._ _4. Proper thermal management techniques are required to maintain safe case temperature at maximum power output._ _5. Ripple specification for center-tapped units applies to the voltage between the positive and negative output terminals._ _3. Specifications after 30 minute warm-up, full load, at 25°C unless otherwise indicated._ **www.xppower.com** 1 |Characteristic|Minimum|Typical|Maximum|Units|Notes & Conditions| |---|---|---|---|---|---| |Operating Temperature (case)|-10||+60|°C|Models E01 to E60| |Operating Temperature (case)|-10||+50|°C|Models E70 to E121| |Storage Temperature|-25||+90|°C|| |Humidity|||95|%RH|Non-condensing| |Cooling|||||Natural Convection| |Characteristic|Minimum|Typical|Maximum|Units|Notes & Conditions| |---|---|---|---|---|---| |Isolation: Input to Output|||3,500|V|< ±3500 Bias for Models E01 to E60| |Isolation: Input to Output|||500|V|< ±500 Bias for Models E70 to E121| |Switching Frequency|30||100|kHz|Stable frequency over entire output voltage range.| |Construction|Case material is Diallyl Phthalate (DAP). UL 94 V-0 rated solid vacuum encapsulation.||||| |Mean Time Between Failure|810|||kHrs|Bellcore TR 332| **==> picture [541 x 136] intentionally omitted <==** **----- Start of picture text -----**<br> Block Diagram<br>—L6LULUlUl——<‘“ COSC<br>1 3<br>(+) In (+) Output<br>Rectifier &<br>Oscillator Multiplier 5<br>Center tap (for Dual output option)<br>ae] EL<br>2 4<br>(-) In ; cam (-) Output<br>Transformer<br>**----- End of picture text -----**<br> ## **External EMI/RFI Shield** ~~—rrr— _i———S~~ **==> picture [229 x 176] intentionally omitted <==** **----- Start of picture text -----**<br> 4-40 solderable 3.40<br>placesgrounding STUD (86.4) ø 0.140 (3.56) thru 2 places<br>0.300<br>(7.62) 0.300<br>(7.62) 1.60<br>Ul (40.6)<br>0.80 0.20<br>(20.3) | (5.1)<br>3.000<br>(76.20)<br>2.60<br>(66.0)<br>0.31<br>(7.9)<br>VOLTAGEHIGH 0.90<br>(22.9)<br>Le, ox<br>0.40<br>To (10.2) a L ns<br>**----- End of picture text -----**<br> _An AB suffix is used to indicate an added external EMI/RFI Shield as shown above. These five-sided aluminum enclosures feature a durable, non-conductive black anodized finish. On models with outputs of 3kV or higher, special care must be taken to ensure adequate spacing and insulation between the metal can and the high voltage output. Single sided layout, encapsulation, or conformal coating may be required. Case grounding studs must be connected to ground. Case ground is not connected to (-) Input._ **www.xppower.com** 2 |**Output Voltage**|**Output Current**|**Input Voltage**|**Ripple**|**Model Number**| |---|---|---|---|---| |0 to 100V<br>~~GO~~|30mA<br>~~GO~~|0 to 12V<br>~~GO~~|<0.2%<br>~~GO~~|E01<br>~~GO~~| |0 to 200V<br>~~a ~~|15mA<br> ~~GO~~|0 to 12V<br>~~GO~~|<0.25%<br>~~GO~~|E02<br>~~GO~~| |0 to 300V<br>~~a ~~|10mA<br> ~~GO~~|0 to 12V<br>~~GO~~|<1%<br>~~GO~~|E03<br>~~GO~~| |0 to 300V<br>~~GO~~|10mA<br>~~GO~~|0 to 12V<br>~~GO~~|<1%<br>~~GO~~|E03AB<br>~~GO~~| |0 to +/-150V<br>~~GO~~|10mA<br>~~GO~~|0 to 12V<br>~~GO~~|<1%<br>~~GO~~|E03CTR<br>~~GO~~| |0 to 500V<br>~~GOO~~|6mA<br>~~GOO~~|0 to 12V<br>~~GOO~~|<0.1%<br>~~GOO~~|E05<br>~~GOO~~| |0 to +/-250V<br>~~a ~~|6mA<br> ~~GO~~|0 to 12V<br>~~GO~~|<0.1%<br>~~GO~~|E05CT<br>~~GO~~| |0 to 600V<br>~~GO~~<br>~~es~~|5mA<br>~~GO~~<br>~~GO~~|0 to 12V<br>~~GO~~<br>~~GO~~|<0.1%<br>~~GO~~<br>~~GO~~|E06<br>~~GO~~<br>~~GO~~| |0 to +/-300V<br>~~es~~|5mA<br>~~GO~~|0 to 12V<br>~~GO~~|<0.1%<br>~~GO~~|E06CT<br>~~GO~~| |0 to +/-300V<br>~~es~~<br>~~(QO~~|5mA<br>~~GO~~<br>~~(QO~~|0 to 12V<br>~~GO~~<br>~~(QO~~|<0.1%<br>~~GO~~<br>~~(QO~~|E06CTAB<br>~~GO~~<br>~~(QO~~| |0 to 800V<br>~~GO~~|3.7mA<br>~~GO~~|0 to 12V<br>~~GO~~|<0.1%<br>~~GO~~|E08<br>~~GO~~| |0 to +/-400V<br>~~a ~~|3.7mA<br> ~~GO~~|0 to 12V<br>~~GO~~|<0.1%<br>~~GO~~|E08CTR<br>~~GO~~| |0 to 1000V<br>~~a~~|3mA<br>~~GOO~~|0 to 12V<br>~~GOO~~|<0.05%<br>~~GOO~~|E10<br>~~GOO~~| |0 to +/-500V<br>~~a ~~|3mA<br> ~~GO~~|0 to 12V<br>~~GO~~|<0.05%<br>~~GO~~|E10CT<br>~~GO~~| |0 to +/-500V<br>~~GG~~|3mA<br>~~GG~~|0 to 12V<br>~~GG~~|<0.05%<br>~~GG~~|E10CTAB<br>~~GG~~| |0 to 1200V<br>~~a ~~|2.5mA<br> ~~GO~~|0 to 12V<br>~~GO~~|<0.05%<br>~~GO~~|E12R<br>~~GO~~| |0 to +/-600V<br>~~(QO~~|2.5mA<br>~~(QO~~|0 to 12V<br>~~(QO~~|<0.05%<br>~~(QO~~|E12CT<br>~~(QO~~| |0 to 1500V<br>~~GO~~|2mA<br>~~GO~~|0 to 12V<br>~~GO~~|<0.05%<br>~~GO~~|E15<br>~~GO~~| |0 to +/-750V<br>~~GO~~<br>~~es~~|2mA<br>~~GO~~<br>~~GOO~~|0 to 12V<br>~~GO~~<br>~~GOO~~|<0.05%<br>~~GO~~<br>~~GOO~~|E15CT<br>~~GO~~<br>~~GOO~~| |0 to 2000V<br>~~es~~|1.5mA<br>~~GOO~~|0 to 12V<br>~~GOO~~|<0.25%<br>~~GOO~~|E20<br>~~GOO~~| |0 to 3000V<br>~~es~~<br>~~GO~~|1mA<br>~~GOO~~<br>~~GO~~|0 to 15V<br>~~GOO~~<br>~~GO~~|<0.25%<br>~~GOO~~<br>~~GO~~|E30<br>~~GOO~~<br>~~GO~~| |0 to +/-1500V<br>~~GO~~|1mA<br>~~GO~~|0 to 15V<br>~~GO~~|<0.25%<br>~~GO~~|E30CT<br>~~GO~~| |0 to 4000V<br>~~a ~~<br>~~a~~|0.75mA<br> ~~GO~~<br>~~QO~~|0 to 15V<br>~~GO~~<br>~~QO~~|<0.5%<br>~~GO~~<br>~~GO~~|E40<br>~~GO~~| |0 to 5000V<br>~~a~~|0.6mA<br>~~QO~~|0 to 15V<br>~~QO~~|<0.5%<br>~~GO~~|E50| |0 to +/-2500V<br>~~a~~<br>~~GO~~|0.6mA<br>~~QO~~<br>~~GO~~|0 to 15V<br>~~QO~~<br>~~GO~~|<0.5%<br>~~GO~~<br>~~GO~~|E50CT<br>~~GO~~| |0 to 6000V<br>~~a ~~|0.5mA<br> ~~GO~~|0 to 15V<br>~~GO~~|<0.5%<br>~~GO~~|E60<br>~~GO~~| |0 to 6000V<br>~~GG~~|0.5mA<br>~~GG~~|0 to 15V<br>~~GG~~|<0.5%<br>~~GG~~|E60RAB<br>~~GG~~| |0 to +/-3000V<br>~~a~~|0.5mA<br>~~(OO~~|0 to 15V<br>~~(OO~~|<0.5%<br>~~(OO~~|E60CT<br>~~(OO~~| |0 to 7000V<br>~~GO~~|0.43mA<br>~~GO~~|0 to 15V<br>~~GO~~|<1%<br>~~GO~~|E70<br>~~GO~~| |0 to 7000V<br>~~GO~~<br>~~a~~|0.43mA<br>~~GO~~<br>~~QO~~|0 to 15V<br>~~GO~~<br>~~QO~~|<1%<br>~~GO~~<br>~~GO~~|E70RAB<br>~~GO~~| |0 to +/-3500V<br>~~a~~|0.43mA<br>~~QO~~|0 to 15V<br>~~QO~~|<1%<br>~~GO~~|E70CT| |0 to 8000V<br>~~a~~<br>~~GO~~|0.25mA<br>~~QO~~<br>~~GO~~|0 to 15V<br>~~QO~~<br>~~GO~~|<1.25%<br>~~GO~~<br>~~GO~~|E80<br>~~GO~~| |0 to +/-4000V<br>~~a ~~|0.25mA<br> ~~GO~~|0 to 15V<br>~~GO~~|<1.25%<br>~~GO~~|E80CT<br>~~GO~~| |0 to 10kV<br>~~GG~~|0.2mA<br>~~GG~~|0 to 15V<br>~~GG~~|<1.5%<br>~~GG~~|E101<br>~~GG~~| |0 to 12kV<br>~~a ~~|0.16mA<br> ~~GO~~|0 to 15V<br>~~GO~~|<1.5%<br>~~GO~~|E121<br>~~GO~~| |0 to 12kV<br>~~GO~~|0.16mA<br>~~GO~~|0 to 15V<br>~~GO~~|<1.5%<br>~~GO~~|E121RAB<br>~~GO~~| 1. All orderable part numbers are listed above. 2. CT indicates dual output, center tap. Negative side will be ~10% larger than positive side w.r.t. the center tap pin. 3. AB suffix indicates external shield, see Mechanicals. 4. R suffix is used as a RoHS indicator for legacy models. ~~**Notes**~~ **www.xppower.com** 3 ## **Mechanical Details** ~~Oe~~ **==> picture [493 x 479] intentionally omitted <==** **----- Start of picture text -----**<br> a<br>i ae<br>a;<br>i<br>7<br>oo. a—_n+ HR<br>E01-E60<br>E70-E121<br>RECOMMENDED<br>TOP VIEW<br> PCB LAYOUT<br>TOP VIEW<br>Optional<br>dual output<br>(center tap)<br>4<br>2<br>5<br>1<br>3<br>Clearance hole<br>for #4/M3<br>Recommended<br>hole & PAD O.D. size:<br>Ø0.052 (1.32 ) & Ø0.082 (2.08)<br>*5 places<br>P.C. pins<br>typical<br>0.15 2.50 (63.5)<br>(3.8)<br>0.450<br> Optional<br>1.200 1.50 1.000 (25.40) (11.43) dual output<br>(30.48) (38.1) 4 (center tap)<br>0.800 (20.32) 2<br>5 0.400 (10.16)<br>1.10 2X Ø0.129 (3.28) 0 1<br>(27.9) Clearance hole 0.200 3 0.35 (8.9)<br>for #4/M3<br>(5.08)<br>0.85<br>(21.6)<br>Recommended<br>0.20 Output leads hole & PAD O.D. size:<br>(5.1) 0.031 (0.79) #22 AWG 30KV Ø0.052 (1.32) & Ø0.082 (2.08)<br>P.C. pins silicone *3 places<br>typical<br>6.0" (152.4) min.<br>0.15<br>2.50 (63.5)<br>(3.8)<br>0.450<br>(11.43)<br>1.200 1.50 1.000 (25.40)<br>(30.48) (38.1) 0.900 (22.86)<br>0.800 (20.32) 0.400 (10.16)<br>2.100 0 0.100 (2.54)<br>0.20 (5.1) (53.34) 2X Ø0.129 (3.28) 0.200 0.35 (8.9)<br>(5.08)<br>0.85<br>0.20 (5.1)<br>(21.6)<br>Ø0.031 (0.79)<br>0<br>0.65 (16.5) 1.400 (35.56)<br>0.65 (16.5) 0 1.200 (30.48)<br>**----- End of picture text -----**<br> |Pin #|Function| |---|---| |1|(+) Input| |2|(-) Input| |3|(+) Output| |4|(-) Output| |5|Dual Output/Center Tap (Optional)| ## ~~**Notes**~~ 1. All dimensions are in inches (mm) 2. Weight 3oz (85g) 3. Tolerance: X.XX±0.02 (0.51) 4. Pin Tolerance: ±0.005 (0.127) **www.xppower.com** 4 ## **Application Notes** ~~a~~ **==> picture [217 x 77] intentionally omitted <==** **----- Start of picture text -----**<br> Positive Output<br>+Vin 1 3 +Vout<br>-Vin 2 4<br>**----- End of picture text -----**<br> **==> picture [197 x 77] intentionally omitted <==** **----- Start of picture text -----**<br> Negative Output<br>+Vin 1 3<br>-Vin 2 4 -Vout -<br>**----- End of picture text -----**<br> ## **Dual Output** **==> picture [148 x 51] intentionally omitted <==** **----- Start of picture text -----**<br> +Vin 1 3 +Vout<br>5<br>-Vin 2 4 -Vout<br>**----- End of picture text -----**<br> ## **Output Voltage vs. Input Voltage** **==> picture [339 x 191] intentionally omitted <==** **----- Start of picture text -----**<br> 140<br>120<br>100<br>80<br>Full-load<br>60<br>No-load<br>40<br>20<br>0<br>0 10 20 30 40 50 60 70 80 90 100<br>Input Voltage (%)<br>Output Voltage (%)<br>**----- End of picture text -----**<br> **www.xppower.com** 06 March 20
Updated at April 22, 2026
XP Power is a globally recognized leader in the design and manufacture of critical power solutions for the electronics industry. With a steadfast commitment to total quality and in-house engineering expertise, the company delivers highly reliable components that support complex applications across the industrial, healthcare, and technology sectors. Their extensive manufacturing capabilities provide engineers with a broad and dependable source for innovative power products. Our extensive portfolio of XP Power components is heavily focused on robust power and line protection. The core of this offering features a vast selection of high-performance AC/DC converters, designed to meet the rigorous efficiency and footprint demands of modern electronic systems. Complementing these are numerous reliable DC/DC converters, providing versatile options for precise voltage regulation and seamless system integration. Beyond their primary power conversion ranges, XP Power manufactures specialized components to address specific design challenges. Our selection includes essential passive components, such as power line filters for effective EMC and RFI suppression, ensuring signal integrity and strict regulatory compliance. Additionally, we provide dedicated AC/DC LED power supplies tailored for reliable, long-lasting performance in advanced commercial and industrial lighting applications.
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