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FAST HIGH VOLTAGE SOLID-STATE SWITCHES |
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B4 |
HV switches with fixed on-time, low on-resistance, MOSFET |
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● HV switch in Trench-FET technology for extremely low on-resistance ● Very EMC tolerant ● Low control power also at higher switching frequencies ● Available with on-time options from 100ns to 100μs
Note: The model number contains coded information about voltage, current and turn-on behavior. The first digits stand for the voltage in kV, the last digit before the dash indicates the turn-on behavior (0 = fixed on-time, 1 = variable on-time). The digits after the dash indicate the current in Amperes x10. Special features are coded by the letters after a second dash. Example HTS 40-06-B: HTS = HV Transistor Switch, 4 = 4 kV, 0 = fixed on-time, 06 = 60 Ampere, B = Trench-FET
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Model [sorted by |
Description / Comment |
Dimensions |
Voltage |
Pk. Current |
On-Resist. |
On-Time |
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| HTS 40-06-B | ● | Tubular housing with pigtail connectors. Cooling options not available. |
135 x 20 x 20
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4.8
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60
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1.52
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150
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| HTS 40-12-B | ● | LED indicators. Very compact design - CF options partly not applicable! |
79 x 38 x 25
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4.8
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120
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0.76
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150
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| HTS 90-06-B | ● | LED indicators. Very compact design - CF options partly not applicable! |
79 x 38 x 25
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9.6
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60
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3.04
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150
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| HTS 40-26-B | ● | LED indicators. Very compact design - CF options partly not applicable! |
79 x 38 x 25
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4.8 | 260 | 1.3 | 220 |
| HTS 90-13-B | ● | LED indicators. Very compact design - CF options partly not applicable! |
79 x 38 x 25
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9.6 | 130 | 0.65 | 220 |
| HTS 100-12-B | ● |
89 x 64 x 27
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10.8
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120
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1.71
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200
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| HTS 30-60-B | ● |
89 x 64 x 31
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3
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600
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0.19
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150
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| HTS 60-30-B | ● |
89 x 64 x 31
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6
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300
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0.38
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150
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| HTS 70-30-B | ● | Compact design - CF options partly not applicable! |
89 x 64 x 31
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7.2
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300
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0.46
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150
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| HTS 40-60-B | ● |
122 x 64 x 31
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4.8
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600
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0.3
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150
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| HTS 90-30-B | ● |
122 x 64 x 31
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9.6
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300
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0.6
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150
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| HTS 60-60-B | ● |
153 x 64 x 31
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6
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600
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0.38
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150
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| HTS 120-30-B | ● |
153 x 64 x 31
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12
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300
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0.76
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150
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| HTS 160-48-B | ● | LED indicators & Sync. I/O. CF options partly not applicable! |
174 x 103 x 35
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16.8
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480
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0.67
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150
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| HTS 90-96-B | ● | LED indicators & Sync. I/O for parallel connection. |
204 x 103 x 35
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9
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960
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0.71
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150
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| HTS 180-48-B | ● | LED indicators & Sync. I/O for parallel connection. |
204 x 103 x 35
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18
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480
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0.71
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150
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| HTS 120-96-B | ● | LED indicators & Sync. I/O for parallel connection. |
253 x 103 x 35
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12
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960
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0.48
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150
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| HTS 240-48-B | ● | LED indicators & Sync. I/O for parallel connection. |
253 x 103 x 35
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24
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480
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0.95
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150
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| HTS 240-104-F | ● | LED indicators & Sync. I/O for parallel connection | 253 x 103 x 35 |
24
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1040
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0.4
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250 |
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Options (1) |
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HFB |
High Frequency Burst: Improved burst capability of driver by means of external buffer capacitors. Recommended if more than 10 pulses with less than 10 μs spacing are generated. |
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HFS |
High Frequency Switching: External supply of auxiliary driver voltage (50-350 VDC according to type). Necessary if the specified “Maximum Operating Frequency” shall be exceeded. (2) |
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LP |
Low Pass: Low pass filter at the control input. Propagation delay time will be increased by ~50 ns. Jitter + 500 ps. Improved noise immunity and less critical wiring in high speed applications. (3) |
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DT |
Delayed Trigger: “Total Turn-On Time” irreversibly increased to >1 μs. Required if national or international export restrictions apply (“dual use products”). (2) |
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S-ON |
Soft Turn-On: Turn-On Rise Time increased by ~20%. Simplified EMC design and less critical wiring if the shortest possible edge steepness is not required. (3) |
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S-OFF |
Soft Turn-Off: Turn-Off Rise Time increased by ~20%. Simplified EMC design and less critical wiring if the shortest possible edge steepness is not required. (3) |
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S-TT |
Soft Transition Time: Turn-On Rise Time & Turn-Off Rise Time increased by ~20%. Simplified EMC design and less critical wiring if the shortest possible edge steepness is not required. (3) |
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TT-C |
Customized Transition Time: Customized rise & fall times to meet individual design requirements. (2) |
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TT-P |
Programmable Transition Time: Switching speed adjustable in certain limits by means of external programming resistors. (2) |
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OT-1μ |
On-Time Extension: On-Time increased to 1 μs. Turn-Off Rise Time >500 ns. |
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OT-10μ |
On-Time Extension: On-Time increased to 10 μs. Turn-Off Rise Time > 5 μs. |
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OT-100μ |
On-Time Extension: On-Time increased to 100 μs. Turn-Off Rise Time >50 μs. |
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OT-C |
Customized On-Time: On-Time according to customer’s specifications. Any value between 100 ns and 100 μs. |
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OT-P |
Programmable On-Time: On-Time adjustable in certain limits by means of external programming resistors. (2) |
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MIN-PS |
Minimum Pulse Spacing: Individually increased Recovery Time to ensure a minimum HV pulse spacing indepently of control pulse spacing. For safety relevant circuits. |
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ST |
Stage Tapping: Connectors at the individual stages of stack in order to utilize single power semiconductors. To achieve fast rise times also at very low operating voltages (<0.01xVo). |
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LNC |
Low Natural Capacitance: CN reduced by approximately 30%. To minimize capacitive power losses in applications with high switching frequency and high switching voltage (Pc= V2 x C x f). |
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LL |
Low Leakage Current: Off-state current reduced to less than 10% of the specified value. Not available in connection with the cooling fin options and for switches of the UF series. |
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ISO-25 |
25 kV Isolation: Isolation Voltage increased to 25 kVDC. Housing dimensions may change for some models. |
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ISO-40 |
40 kV Isolation: Isolation Voltage increased to 40 kVDC. Housing dimensions may change for some models. Only in connection with option PT-HV. |
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ISO-80 |
80 kV Isolation: Isolation Voltage increased to 80 kVDC. Housing dimensions may change for some models. Only in connection with option PT-HV. |
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I-PC |
Integrated Part Components: Integration of small part components according to customer’s specifications (e.g. buffer capacitors, snubbers, damping resistors, diodes, opto couplers). (2) |
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I-FWD |
Integrated Free-Wheeling Diode: Built-in parallel diode with short recovery time. In connection with inductive load only. |
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I-FWDN |
Integrated Free-Wheeling Diode Network: Built-in parallel diode plus serial blocking diode with short recovery time. In connection with inductive load only. |
| SEP-C | Separate Control Unit. Control unit with LED indicators in a separate housing (dim. 79x38x17 mm). Linkage cable (<1m) with plug. Control unit with soldering pins or pigtails |
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I-PC |
Integrated Part Components: Integration of small part components according to customer’s specifications (e.g. buffer capacitors, snubbers, damping resistors, diodes, opto couplers). (2) |
| LS-C | LEMO socket for Control Connection. Input Z=100Ω. An assembled linkage cable (1m/3ft) with two plugs and one socket is included in supply. Improved noise immunity. (3) |
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PT-C |
Pigtail for Control Connection: Flexible leads (l=75 mm) with PCB connector. This option is only relevant for switching modules with pins. Recommended for modules with options CF & GCF. |
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PIN-C |
Pins for Control Connection: Gold plated pins for printed circuit board designs (special sockets available). This option is only relevant for switching modules which have pigtails as standard. |
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PT-HV |
Pigtails for HV Connection: Flexible leads with cable lugs. For increased creepage. PT-HV is standard for all types with >25 kV switching voltage. Not recommended in extremely fast circuits. |
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ST-HV |
Screw Terminals for HV Connection: Threaded inserts at the bottom of module (if not standard). For PCB design. Operation above 25 kV requires liquid insulation (Galden®/Oil) or potting. |
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UL94 |
Flame Retardant Casting Resin: Casting resin according to UL-94-VO. Minimum order quantity required. (2) |
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TH |
Tubular Housing: Tubular instead of rectangular housing. Adaption to specific ambient conditions or in case of difficult assembly situations. ‚ |
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FC |
Flat Case: Height of standard plastic housings reduced to 19 mm or less. Not in combination with cooling options CF, GCF and DLC. |
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ITC |
Increased Thermal Conductivity: Special moulding process to increase the thermal conductivity of the module. Pd(max) will be increased by approx. 20-30%. (2) |
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CF |
Non-Isolated Cooling Fins: Standard sizes in categories I to VII according to model. Nickel plated copper 0.5 mm, fin height 35 mm. For air cooling and oil immersion. |
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CF-1 |
Non-Isolated Cooling Fins d=1mm: Nickel plated copper 1.0 mm instead of 0.5 mm. The Max. Power Dissipation will be increased by ~80 %. For air cooling and oil immersion. |
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CF-X2 |
Non-Isolated Cooling Fins enlarged by x2: Fin area enlarged by factor 2. Not relevant in connection with oil cooling. |
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CF-X3 |
Non-Isolated Cooling Fins enlarged by x3: Fin area enlarged by factor 3. Not relevant in connection with oil cooling. |
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CF-CS |
Non-Isolated Cooling Fins with customized shape: Individual shape to meet specific OEM requirements. (2) |
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CF-LC |
Non-isolated Cooling Fins optimized for liquid cooling: Double fins, nickel plated copper, 0.5 mm thickness, height 20 mm. |
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CF-GRA |
Non-isolated Cooling Fins made of graphite. Very light weight compared to copper at similar heat transfer, but reduced heat capacity. 0.5 or 1 mm thickness, height 35 mm. |
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CF-CER |
Isolated Cooling Fins made of ceramics. Heat transfer properties similar to alumina. Forced convection recommended, height 35 mm. |
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CCS |
Ceramic Cooling Surface. Top side of switching module made of special ceramics. Heat transfer properties similar to alumina. Forced convection recommended. |
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C-DR |
Cooling for Driver: Extra cooling for the driver and control electronics. Recommended in combination with option HFS at higher switching frequencies. (2) |
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GCF |
Grounded Cooling Flange: Nickel-plated copper flange for High Power applications. Max. isolation voltage 40kV. Increased coupling capacitance Cc. |
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GCF-X2 |
Grounded Cooling Flange, Max. Continuous Power Dissipation increased by x2: Thermal resistance “Switch to Flange” reduced for twice the power capability. (2) |
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ILC |
Indirect Liquid Cooling: Liquid cooling for all kind of conductive coolants including mains water. Internal heat exchanger made of ceramics. For medium power applications. |
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DLC |
Direct Liquid Cooling: Internal cooling channels arround the power semiconductors. The most efficient cooling solution especally for high frequency applications. For non-conductive coolants only. |
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HI-REL |
High Reliability / MIL Versions: Available on request. (2) |
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(1) New option code: Data
sheets may differ from this coding system (especially older ones) and
do not indicate all possible options as per above table. (2) Please
consult factory for detailed information. |
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Further information, data sheets and drawings are available on request. All data and specifications subject to change without notice. BEHLKE POWER ELECTRONICS 07-11-2011 |
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