PKV 3000 I - PKV 5000 I DC/DC converter Input 9-36 and 18-72 Vdc Output up to 0.5A/3W Key Features * Industry standard DIL24 * Wide input voltage range, 9-36 V, 18-72 V * High efficiency 74-83% typical * Low idling power * Full output power up to +75 C ambient temperature * Input/Output isolation 1,500 Vdc * MTBF > 650,000 hours at +25 C ambient The PKV series of DC/DC power modules is intended for general use in 12/24 V and 48/60V DC systems. Designed with MOSFET transistors and 200 kHz switching frequency, they are characterized by high efficiency over a wide load range, very low quiescent power and an excellent line and load regulation. The DC/DC power modules are encapsulated in an epoxy filled plastic box. The flammability ratings of E the encapsulating materials are in conformance with UL 94V-0 and have an adequate thermal conductivity. The materials withstand all normal PBA cleaning methods. Ericsson Power Modules is an ISO 9001/ 14001 certified supplier. General Safety Absolute Maximum Ratings Characteristics min max Units -40 +95 C -40 +125 C 40 80 Vdc temperature1) TC Case TS Storage temperature VI Input voltage, 0.1 s max VISO Isolation voltage (input to output test voltage) PKV 3000 PKV 5000 The PKV 3000 I and PKV 5000 I series DC/DC converters are designed in accordance with safety standards IEC/EN/UL 60 950, Safety of Information Technology Equipment. The PKV 3000 I and PKV 5000 I series DC/DC converters are UL 60 950 recognized. The DC/DC converter should be installed in the end-use equipment, in accordance with the requirements of the ultimate application. The input source must be isolated by minimum Basic insulation from the primary circuit in accordance with IEC/EN/UL 60 950. If the input voltage to the DC/DC converter is 60 V dc or less, then the output remains SELV (Safety Extra Low Voltage) under normal and abnormal operating conditions. It is recommended that a slow blow fuse with a rating of 2 x IImax be used at the input of each DC/DC converter. If a fault occurs in the converter that imposes a short circuit on the input source, this fuse will provide the following functions: Vdc 1,500 Stress in excess of Absolute Maximum Ratings may cause permanent damage. Absolute Maximum Ratings, sometimes referred to as no destruction limits, are normally tested with one parameter at a time exceeding the limits of Output data or Electrical Characteristics. If exposed to stress above these limits, function and performance may degrade in an unspecified manner. Note: 1) Corresponding typical ambient temperature range (TA) at full output power is - 40 to +75C. Input TA = +25C, unless otherwise specified Characteristics Conditions VI Input voltage range TA= - 40 to +75C VIoff Turn-off input voltage Inrush current VI ac Peak I2t min PKV 3000 PKV 5000 typ max 9 18 PKV 3000 PKV 5000 Low loss, low inductive capacitive source PKV 3000 PKV 5000 Idling power IO = 0 Ripple voltage IO = IO max, BW=20 MHz Units 36 72 V 8 16 V 35 0.005 0.005 A A2s A2s 0.3 W 100 mVp-p * Isolate the faulty DC/DC converter from the input power source not to affect the operation of other parts of the system. * Protect the distribution wiring from excessive current and power loss thus preventing hazardous overheating. Miscellaneous Characteristics Conditions min typ max Input/Output coupling capacitor RH = 48%, TC = +25C f = 100 Hz 1000 pF Switching frequency VI = VI nom, IO = IOmax 200 kHz Test method Reference Vibration (Sinusoidial) IEC 68-2-6 FC Shock (Half-sinus) Temperature change The galvanic isolation is verified in an electric strength test. The test voltage (VISO) between input and output is 1500 Vdc for 60 seconds. Leakage current is less than 1A at nominal input voltage. The flammability rating for all construction parts of the DC/DC converter meets UL 94V-0. Environmental Characteristics 2 Unit Test procedure & conditons Frequency Amplitude Accelaration Number of cycles Test duration 10...500Hz 0.75 mm 10 g 10 in each axis 1 h per axis IEC 68-2-27 Ea Peak acceleration Shock duration 200g 3 ms IEC 68-2-14 Na Temperature Number of cycles - 40C to +125C 100 EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 Mechanical Data PIN SECTION Width Thickness Connections Function Pin 2 3 9 10 11 14 15 16 22 23 Designation - In -In NC/Rtn NC NC/-Out +Out NC Rtn +In +In Single output Dual output Negative input Negative input Not connected Not connected Not connected Positive output Not connected Output return Positive input Positive input Negative input Negative input Output return Not connected Negative output Positive output Not connected Output return Positive input Positive input Weight: Pins: Maximum 15 g (0.53 oz). Material: Copper Plating: Tin Coating Case: Non conductive plastic, UL 94V-0. EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 3 PKV 3110 PI Output TA =+25C, VI = 9...36 V unless otherwise specified. Output 1 Characteristics Conditions Unit min VO ttr Vtr Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax Load regulation IO =0.1...1.0 x IO max, VI = 26 V 3.20 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 26 V load step = 0.5 x IO max Tcoeff Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =26 V VO ac Output ripple & noise IO =IO max,TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) typ 3.40 V 6.6 16.5 mV 6.6 33 mV 300 s +100 mV -100 mV Measured after stabilization IO= 0.1...1.0 x IO max , VI = 26 V max 0.02 0.1...0.9 x VO 0.5 From VI connection to VO = 0.9 x VOi 800 ms 1300 ms 0.5 A 1.65 W 0.50 DC... 20 MHz %/C 1.62 A 0.20 A 60 mVp-p 60 dB At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Power derating Characteristics Conditions min typ Efficiency IO = IO max, VI = 26 V 66 73 Pd Power dissipation IO =IO max, VI = 26 V 4 0.61 max Unit % 0.85 W EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 PKV 3211 PI Output TA =+25C, VI = 9...36 V unless otherwise specified. Output 1 Characteristics Unit Conditions min VO ttr Vtr Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax Load regulation IO =0.1...1.0 x IO max, VI = 26 V 4.90 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 26 V load step = 0.5 x IO max Tcoeff Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =26 V VO ac Output ripple & noise IO =IO max,TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) typ 5.10 V 10 25 mV 10 50 mV 300 s +100 mV -100 mV Measured after stabilization IO= 0.1...1.0 x IO max , VI = 26 V max 0.02 0.1...0.9 x VO 0.5 From VI connection to VO = 0.9 x VOi 800 ms 1300 ms 0.5 A 2.5 W 0.5 DC20 MHz %/C 1.62 A 0.25 A 60 mVp-p 60 dB At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Power derating Characteristics Conditions min typ Efficiency IO = IO max, VI = 26 V 76 82 Pd Power dissipation IO =IO max, VI = 26 V EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 0.55 max Unit % 0.79 W 5 PKV 3313 PI Output TA = +25C, VI = 9...36 V unless otherwise specified. Output 1 Characteristics Unit Conditions min VO ttr Vtr Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax Load regulation IO =0.1...1.0 x IO max, VI = 26 V 11.76 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 26 V load step = 0.5 x IO max Tcoeff Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =26 V VO ac Output ripple & noise IO =IO max,TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) typ 12.24 V 24 60 mV 24 120 mV 300 s +150 mV -150 mV Measured after stabilization IO= 0.1...1.0 x IO max , VI = 26 V max 0.02 0.1...0.9 x VO 1.2 From VI connection to VO = 0.9 x VOi 800 ms 1300 ms 0.25 A 3 W 0.25 DC... 20 MHz %/C 0.81 A 0.35 A 60 mVp-p 60 dB At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Power derating Efficiency (typ) Characteristics Conditions min typ Efficiency IO = IO max, VI = 26 V 76 82 Pd Power dissipation IO =IO max, VI = 26 V 6 0.66 max Unit % 0.95 W EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 PKV 3315 PI Output TA = +25C, VI = 9...36 V unless otherwise specified. Output 1 Characteristics Unit Conditions min VO ttr Vtr Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax Load regulation IO =0.1...1.0 x IO max, VI = 26 V 14.7 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 26 V load step = 0.5 x IO max Tcoeff Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =26 V VO ac Output ripple & noise IO =IO max,TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) typ 15.3 V 30 75 mV 30 150 mV 300 s +200 mV -200 mV Measured after stabilization IO= 0.1...1.0 x IO max , VI = 26 V max 0.02 0.1...0.9 x VO 1.2 From VI connection to VO = 0.9 x VOi 800 ms 1300 ms 0.2 A 3 W 0.2 DC... 20 MHz %/C 0.65 A 0.35 A 60 mVp-p 60 dB At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Power derating Characteristics Conditions min typ Efficiency IO = IO max, VI = 26 V 76 82 Pd Power dissipation IO =IO max, VI = 26 V EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 0.66 max Unit % 0.95 W 7 PKV 3222 PI Output TA =+25C, VI = 9...36V unless otherwise specified. Output 1 Characteristics Unit typ min VO ttr Vtr max min +5.1 -4.9 Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax 10 25 Load regulation IO =0.1...1.0 x IO max, VI = 26 V 10 50 +4.9 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 26 V load step = 0.5 x IO max Tcoeff Temperature coefficient Measured after stabilization tr Ramp-up time ts Start-up time IO= 0.1...1.0 x IO max , VI = 26 V IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =26 V VO ac Output ripple & noise IO =IO max, TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) Output 2 Conditions typ max -5.1 V 10 25 mV 10 50 mV 300 300 s +100 +100 mV -100 -100 mV 0.02 0.1...0.9 x VO 1.2 From VI connection to VO = 0.9 x VOi 800 0.02 1.2 1300 ms 800 0.25 1.25 1300 ms 0.25 A 1.25 0.25 0.81 %/C W 0.25 0.81 A 0.25 0.25 A 60 60 mVp-p 45 45 dB DC...20 MHz At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Power derating Characteristics Conditions Efficiency IO = IO max, VI = 26 V Pd Power dissipation IO = IO max, VI = 26 V 8 min typ 75 82 0.55 max Unit % 0.83 W EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 PKV 3321 PI Output TA = +25C, VI = 9...36V unless otherwise specified. Output 1 Characteristics Unit typ min VO ttr Vtr IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax 24 60 Load regulation IO =0.1...1.0 x IO max, VI = 26 V 24 120 +11.76 IO= 0.1...1.0 x IO max , VI = 26 V load step = 0.5 x IO max Temperature coefficient Measured after stabilization tr Ramp-up time ts Start-up time IO= 0.1...1.0 x IO max , VI = 26 V IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =26 V VO ac Output ripple & noise IO =IO max, TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) typ max +12.24 -11.76 Load transient recovery time Load transient voltage min max Output voltage tolerance band Tcoeff 1) Output 2 Conditions -12.24 V 24 60 mV 24 120 mV 300 300 s +150 +150 mV -150 -150 mV 0.02 0.1...0.9 x VO 1.2 From VI connection to VO = 0.9 x VOi 800 0.02 1.2 1300 ms 800 0.125 1.5 1300 ms 0.125 A 1.5 0.125 0.400 %/C W 0.125 0.400 A 0.35 0.35 A 60 60 mVp-p 45 45 dB DC...20 MHz At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Power derating Efficiency (typ) Characteristics Conditions Efficiency IO = IO max, VI = 26 V Pd Power dissipation IO = IO max, VI = 26 V EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 min 73 typ max 82 0.66 Unit % 1.11 W 9 PKV 3325 PI Output TA = +25C, VI = 9...36V unless otherwise specified. Output 1 Characteristics Unit typ min VO ttr Vtr max min +15.3 -14.7 Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax 30 75 Load regulation IO =0.1...1.0 x IO max, VI = 26 V 30 150 +14.7 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 26 V load step = 0.5 x IO max Tcoeff Temperature coefficient Measured after stabilization tr Ramp-up time ts Start-up time IO= 0.1...1.0 x IO max , VI = 26 V IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =26 V VO ac Output ripple & noise IO =IO max, TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) Output 2 Conditions typ max -15.3 V 30 75 mV 30 150 mV 300 300 s +200 +200 mV -200 -200 mV 0.02 0.1...0.9 x VO 1.2 From VI connection to VO = 0.9 x VOi 800 0.02 1.2 1300 ms 800 0.1 1.5 1300 ms 0.1 A 1.5 0.10 0.32 %/C W 0.10 0.32 A 0.35 0.35 A 50 50 mVp-p 45 45 dB DC...20 MHz At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Power derating Characteristics Conditions IO = IO max, VI = 26 V Pd 10 Efficiency Power dissipation IO = IO max, VI = 26 V min typ 76 80 0.75 max Unit % 0.95 W EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 PKV 5110 PI Output TA = +25C, VI = 18...72V unless otherwise specified. Output 1 Characteristics Unit Conditions min VO ttr Vtr Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax Load regulation IO =0.1...1.0 x IO max, VI = 53 V 3.20 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 53 V load step = 0.5 x IO max Tcoeff Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =53 V VO ac Output ripple & noise IO =IO max,TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) typ 3.40 V 6.6 16.5 mV 6.6 33.0 mV 300 s +100 mV -100 mV Measured after stabilization IO= 0.1...1.0 x IO max , VI = 53 V max 0.02 0.1...0.9 x VO 0.5 From VI connection to VO = 0.9 x VOi 900 ms 1300 ms 0.5 A 1.65 W 0.50 DC... 20 MHz %/C 1.62 A 0.1 A 60 mVp-p 60 dB At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Power derating Characteristics Conditions Efficiency IO = IO max, VI = 53 V Pd Power dissipation IO = IO max, VI = 53 V EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 min typ 66 73 0.61 max Unit % 0.85 W 11 PKV 5211 PI Output TA = +25C, VI = 18...72V unless otherwise specified. Output 1 Characteristics Unit Conditions min VO ttr Vtr Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax Load regulation IO =0.1...1.0 x IO max, VI = 53 V 4.90 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 53 V load step = 0.5 x IO max Tcoeff Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =53 V VO ac Output ripple & noise IO =IO max,TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) typ 5.10 V 10 25 mV 10 50 mV 300 s +100 mV -100 mV Measured after stabilization IO= 0.1...1.0 x IO max , VI = 53 V max 0.02 0.1...0.9 x VO 0.5 From VI connection to VO = 0.9 x VOi 900 ms 1300 ms 0.5 A 2.5 W 0.5 DC... 20 MHz %/C 1.62 A 0.12 A 60 mVp-p 60 dB At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Power derating Characteristics Conditions Efficiency IO = IO max, VI = 53 V Pd Power dissipation IO = IO max, VI = 53 V 12 min typ 75 82 0.55 max Unit % 0.84 W EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 PKV 5313 PI Output TA = +25C, VI = 18...72V unless otherwise specified. Output 1 Characteristics Unit Conditions min VO ttr Vtr Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax Load regulation IO =0.1...1.0 x IO max, VI = 53 V 11.76 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 53 V load step = 0.5 x IO max Tcoeff Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =53 V VO ac Output ripple & noise IO =IO max,TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) typ 12.24 V 24 60 mV 24 120 mV 300 s +150 mV -150 mV Measured after stabilization IO= 0.1...1.0 x IO max , VI = 53 V max 0.02 0.1...0.9 x VO 1.2 From VI connection to VO = 0.9 x VOi 900 ms 1300 ms 0.25 A 3 W 0.25 DC... 20 MHz %/C 0.81 A 0.17 A 60 mVp-p 60 dB At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Power derating Characteristics Conditions Efficiency IO = IO max, VI = 53 V Pd Power dissipation IO = IO max, VI = 53 V EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 min typ 76 82 0.66 max Unit % 0.95 W 13 PKV 5315 PI Output TA = +25C, VI = 18...72V unless otherwise specified. Output 1 Characteristics Unit Conditions min VO ttr Vtr Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax Load regulation IO =0.1...1.0 x IO max, VI = 53 V 14.7 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 53 V load step = 0.5 x IO max Tcoeff Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =53 V VO ac Output ripple & noise IO =IO max,TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) typ 15.3 V 30 75 mV 30 150 mV 300 s +200 mV -200 mV Measured after stabilization IO= 0.1...1.0 x IO max , VI = 53 V max 0.02 0.1...0.9 x VO 1.2 From VI connection to VO = 0.9 x VOi 900 ms 1300 ms 0.2 A 3 W 0.20 DC... 20 MHz %/C 0.65 A 0.17 A 60 mVp-p 60 dB At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Power derating Characteristics Conditions Efficiency IO = IO max, VI = 53 V Pd Power dissipation IO = IO max, VI = 53 V 14 min typ 76 82 0.66 max Unit % 0.95 W EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 PKV 5222 PI Output TA = +25C, VI = 18...72V unless otherwise specified. Output 1 Characteristics Unit typ min VO ttr Vtr max min +5.1 -4.9 Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax 10 25 Load regulation IO =0.1...1.0 x IO max, VI = 53 V 10 50 +4.9 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 53 V load step = 0.5 x IO max Tcoeff Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =53 V VO ac Output ripple & noise IO =IO max, TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) Output 2 Conditions max -5.1 V 10 25 mV 10 50 mV 300 300 s +100 +100 mV -100 -100 mV 0.02 Measured after stabilization IO= 0.1...1.0 x IO max , VI = 53 V typ 0.1...0.9 x VO 1.2 From VI connection to VO = 0.9 x VOi 900 0.02 1.2 1300 ms 900 0.25 1.25 1300 ms 0.25 A 1.25 0.25 0.81 %/C W 0.25 0.81 A 0.12 0.12 A 60 60 mVp-p 45 45 dB DC...20 MHz At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Characteristics Power derating Conditions Efficiency IO = IO max, VI = 53 V Pd Power dissipation IO = IO max, VI = 53 V EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 min 75 typ max 82 0.55 Unit % 0.83 W 15 PKV 5321 PI Output TA = +25C, VI = 18...72V unless otherwise specified. Output 1 Characteristics Unit typ min VO ttr Vtr IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax 24 60 Load regulation IO =0.1...1.0 x IO max, VI = 53 V 24 120 +11.76 IO= 0.1...1.0 x IO max , VI = 53 V load step = 0.5 x IO max Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =53 V VO ac Output ripple & noise IO =IO max, TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) max -12.24 V 24 60 mV 24 120 mV 300 300 s +150 +150 mV -150 -150 mV 0.02 Measured after stabilization IO= 0.1...1.0 x IO max , VI = 53 V typ +12.24 -11.76 Load transient recovery time Load transient voltage min max Output voltage tolerance band Tcoeff 1) Output 2 Conditions 0.1...0.9 x VO 1.2 From VI connection to VO = 0.9 x VOi 900 0.02 1.2 1300 ms 900 0.125 1.5 1300 ms 0.125 A 1.5 0.125 0.400 DC...20 MHz %/C W 0.125 0.400 A 0.17 0.17 A 60 60 mVp-p 45 45 dB At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Characteristics Power derating Conditions Efficiency IO = IO max, VI = 53 V Pd Power dissipation IO = IO max, VI = 53 V 16 min 73 typ max 82 0.66 Unit % 1.11 W EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 PKV 5325 PI Output TA = +25C, VI = 18...72V unless otherwise specified. Output 1 Characteristics Unit typ min VO ttr Vtr max min +15.3 -14.7 Output voltage tolerance band IO =0.1...1.0 x IO max and long term drift Line regulation IO =IOmax 30 75 Load regulation IO =0.1...1.0 x IO max, VI = 53 V 30 150 +14.7 Load transient recovery time Load transient voltage IO= 0.1...1.0 x IO max , VI = 53 V load step = 0.5 x IO max Tcoeff Temperature coefficient tr Ramp-up time ts Start-up time IO Output current PO max Max output power Ilim Current limiting threshold1) TC < TC max Isc Short circuit current VI =53 V VO ac Output ripple & noise IO =IO max, TA = 25 C SVR Supply voltage rejection (ac) f = 100/120 Hz sine wave, 1 Vp-p, (SVR = 20 log (1 Vp-p/VOp-p)) 1) Output 2 Conditions max -15.3 V 30 75 mV 30 150 mV 300 300 s +200 +200 mV -200 -200 mV Measured after stabilization IO= 0.1...1.0 x IO max , VI = 53 V typ 0.02 0.1...0.9 x VO 1.2 From VI connection to VO = 0.9 x VOi 900 0.02 1.2 1300 ms 900 0.1 1.5 1300 ms 0.1 A 1.5 0.10 0.32 %/C W 0.10 0.32 A 0.17 0.17 A 60 60 mVp-p 45 45 dB DC...20 MHz At Vout 80% of nominal the power module goes into hick up mode. Miscellaneous Efficiency (typ) Power derating Characteristics Conditions IO = IO max, VI = 53 V Pd Efficiency Power dissipation IO = IO max, VI = 53 V EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 min typ 76 82 0.66 max Unit % 0.95 W 17 EMC Specifications The PKV DC/DC power module is mounted on a double sided printed circuit board (PB) with groundplane during EMC measurements. The fundamental switching frequency is approx. 200 kHz. The PKV series has a good input filter and will only need a simple filter to meet conducted noise according to EN 55022 level B. Fig. 1 shows an example of filter and the results for this filter is shown below. Fig. 1 Conducted noise 18 PKV 3211 without filter PKV 3211 with filter PKV 5211 without filter PKV 5211 with filter EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 Quality Reliability According to MIL-HDBK-217F the calculated MTBF value at 100% load (from PKV 5211 PI) at the following ambient temperatures will be approx.: Test set up Hours 0 C 10 C 25 C 40 C 60 C 75 C 2.7 million 1.5 million 650 000 276 000 88 000 37 000 At 80-100% load the case temperature will be approx. 15-20 C higher than the ambient temperature. Quality Statement Miscellaneous Soldering Information The PKV Series DC/DC converters are intended for through hole mounting on a PCB. When wave soldering is used max temperature on the pins are specified to 230C for 10 seconds. Maximum preheat rate of 2C/s is suggested. When hand soldering is used a thermocouple needs to be mounted on the DC/DC converter pins to verify that pin temperatures does not exceed 300C for longer time than 10 seconds with the used soldering tools. No-clean flux is recommended to avoid entrapment of cleaning fluids in cavities inside of the DC/DC power module. The residues may affect long time reliability and isolation voltage. Delivery Package Information The PKV series DC/DC converters are delivered in tubes with a lenght of 384 mm (15.1 in) The PKV series DC/DC converters are designed and manufactured in an industrial environment where quality systems and methods like ISO 9000 and SPC are intensively in use to boost the continuous improvements strategy. Infant mortality or early failures in the products are screened out by a burn-in procedure. Warranty Ericsson Power Modules warrants to the original purchaser or end user that the product conform to this Data Sheet and are free from material and workmanship defects for a period of five (5) years from the date of manufacture, if the product is used within specified conditions and not opened. In case the product is discontinued, claims will be accepted up to three (3) years from the date of the discontinuation. For additional details on this limited warranty we refer to Ericsson Power Modules "General Terms and Conditions of Sales", or individual contract documents. Limitation of liability Tube Specification Material: Max surface resistance: Color: Capacity: Weight: End stops Tamb PVC 10 to1000 MOhm/sq Transparent 10 pcs/tube typ 160 g Pins EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004 Ericsson Power Modules does not make any other warranties, expressed or implied including any warranty of merchantability or fitness for a particular purpose (including, but not limited to, use in life support applications, where malfunctions of product can cause injury to a person's health or life). 19 Product Program VI VO/IO max PO max Ordering No. 12/24 V 3.3 V/500 mA 5 V/500 mA 12 V/250 mA 15 V/200 mA 5V/250 mA 12V/125 mA 15V/100 mA 1.65 W 2.50 W 3.00 W 3.00 W 2.50 W 3.00 W 3.00 W PKV 3110 PI PKV 3211 PI PKV 3313 PI PKV 3315 PI PKV 3222 PI PKV 3321 PI PKV 3325 PI 48/60 V 3.3 V/500 mA 5 V/500 mA 12 V/250 mA 15 V/200 mA 5 V/250 mA 12 V/125 mA 15 V/100 mA 1.65 W 2.50 W 3.00 W 3.00 W 2.50 W 3.00 W 3.00 W PKV 5110 PI PKV 5211 PI PKV 5313 PI PKV 5315 PI PKV 5222 PI PKV 5321 PI PKV 5325 PI Information given in this data sheet is believed to be accurate and reliable. No responsibility is assumed for the consequences of its use nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Ericsson Power Modules. These products are sold only according to Ericsson Power Modules' general conditions of sale, unless otherwise confirmed in writing. Specifications subject to change without notice. Ericsson Power Modules SE-126 25 Stockholm, Sweden Telephone: +46 8 568 69620 Americas Ericsson Inc., Power Modules +1-972-583-5254, +1-972-583-6910 For local sales contacts, please refer to our website www.ericsson.com/powermodules or call: Int +46 8 568 69620, Fax: +46 8 568 69599 Asia/Pacific Ericsson Ltd. +852-2590-2453 The latest and most complete information can be found on our website. Data Sheet EN/LZT 146 37 R2C (c) Ericsson Power Modules AB, August 2004