For more information, please visit the product page. date 12/17/2013 page 1 of 8 SERIES: VFK600 │ DESCRIPTION: DC-DC CONVERTER FEATURES • • • • • • up to 700 W isolated output rugged metal enclosure with integrated heat sink 2:1 input range (18~36 Vdc, 36~75 Vdc) single output from 12~48 Vdc 1,500 Vdc isolation over current, over temperature, over voltage, and short circuit protections • remote on/off • N+1 current sharing • efficiency up to 92% MODEL input voltage output voltage output current output power ripple and noise1 efficiency range (Vdc) (Vdc) max (A) max (W) max (mVp-p) typ (%) VFK600-D24-S12 18 ~ 36 12 50 600 120 89 VFK600-D24-S24 18 ~ 36 24 25 600 240 91 VFK600-D24-S28 18 ~ 36 28 21.5 600 280 90 VFK600-D24-S32 18 ~ 36 32 19 608 320 91 VFK600-D24-S48 18 ~ 36 48 12.5 600 480 92 VFK600-D48-S12 36 ~ 75 12 50 600 120 90 VFK600-D48-S24 36 ~ 75 24 25 600 240 91 VFK600-D48-S28 36 ~ 75 28 25 700 280 91 VFK600-D48-S32 36 ~ 75 32 19 608 320 92 VFK600-D48-S48 36 ~ 75 48 12.5 600 480 92 Notes: 1. Ripple and noise are measured at full load, 20 MHz BW with 10µF tantalum capacitor and 1µF ceramic capacitor across output PART NUMBER KEY VFK600 - DXX - SXX Base Number Input Voltage cui.com Output Voltage For more information, please visit the product page. CUI Inc │ SERIES: VFK600 │ DESCRIPTION: DC-DC CONVERTER date 12/17/2013 │ page 2 of 8 INPUT parameter conditions/description operating input voltage 24 Vdc input models 48 Vdc input models input current 24 Vdc input models, Vin = 18 Vdc, full load 48 Vdc input models, Vin = 36 Vdc, full load typ max units 18 36 24 48 36 75 Vdc Vdc 37.7 21.7 A A 24 Vdc input power up power down 16 15 17 16 18 17 Vdc Vdc 48 Vdc input power up power down 34 32 35 33 36 34 Vdc Vdc 24 Vdc input power up power down 38 40 Vdc Vdc 48 Vdc input power up power down 77 80 Vdc Vdc under voltage shutdown over voltage shutdown models ON (3.5~7.5 Vdc or open circuit) CTRL1 positive logic input fuse 60 A time delay fuse for 24 Vin models, 30 A time delay fuse for 48 Vin models filter pi filter Note: min models OFF (0~0.7 Vdc) 1. Open collector refer to -Vin. OUTPUT parameter conditions/description min maximum capacitive load 12 V output models 24~48 V output models 470 470 line regulation load regulation typ max units 10,000 5,000 μF μF measured from low line to high line ±0.2 % measured from zero load to full load ±0.5 % ±1.5 % voltage accuracy load share accuracy 50~100% load ±10 adjustability 60 switching frequency 48 V input, 12/28/32 V output models all other models transient response 25% step load change % 110 300 250 kHz kHz 500 temperature coefficient % ±0.03 µs %/°C PROTECTIONS parameter conditions/description min short circuit protection continuous over current protection % nominal output current 110 over voltage protection %Vo 115 over temperature protection shutdown typ max units 150 % 140 110 % °C SAFETY AND COMPLIANCE parameter conditions/description isolation voltage for 1 minute: input to output; input to case; output to case min isolation resistance RoHS 2011/65/EU (CE) cui.com typ max units 1,500 Vdc 10 MΩ For more information, please visit the product page. CUI Inc │ SERIES: VFK600 │ DESCRIPTION: DC-DC CONVERTER date 12/17/2013 │ page 3 of 8 ENVIRONMENTAL parameter conditions/description min max units operating temperature see derating curves -40 85 °C -55 105 °C max units storage temperature typ MECHANICAL parameter conditions/description dimensions 199.14 x 126.75 x 39.12 (7.84 x 4.99 x 1.54 inch) min case material steel and aluminum extrusion weight typ mm 1.2 kg MECHANICAL DRAWING units: mm[inch] tolerance: X.XX = ±0.5[±0.02] X.XXX = ±0.25[±0.010] wire range: 22~12 AWG screw size: #6-32 PIN CONNECTIONS PIN FUNCTION 1, 2 +Vin 3 REM 4 case 5, 6 -Vin 7, 8 +Vo 9 +S 10 PC 11 Trim 12 -S 13, 14 -Vo 199.14 7.840 4.50 0.177 ( 4 PLCS) 39.12 1.540 7 126.75 4.990 116.68 4.594 1 8 2 9 3 10 4 11 5 12 6 13 14 130.00 5.118 cui.com 111.29 4.381 For more information, please visit the product page. CUI Inc │ SERIES: VFK600 │ DESCRIPTION: DC-DC CONVERTER date 12/17/2013 │ page 4 of 8 DERATING CURVES VFK600 Power Derating Curves At Nominal Input (Includes 24 V input, 12/24/28 V output models and VFK600-D48-S12) 120% Natural Convection Relative Output Power - % of nominal output 100% 0.5 m/S (100LFM) 80% 1.0 m/S (200LFM) 1.5 m/S (300LFM) 60% 2.0 m/S (400LFM) 40% 2.5 m/S (500LFM) 20% 3.0 m/S (600LFM) 3.5 m/S (700LFM) 0% 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 Ambient Temperature - degrees C VFK600 Power Derating Curves At Nominal Input (Includes 24 V input, 32/48 V output models and 48 V input, 24/28/32/48 V output models) 120% Natural Convection Relative Output Power - % of nominal output 100% 0.5 m/S (100LFM) 1.0 m/S (200LFM) 80% 1.5 m/S (300LFM) 60% 2.0 m/S (400LFM) 40% 2.5 m/S (500LFM) 3.0 m/S (600LFM) 20% 3.5 m/S (700LFM) 0% 0 5 10 15 20 25 30 35 40 45 50 55 Ambient Temperature - degrees C cui.com 60 65 70 75 80 85 For more information, please visit the product page. CUI Inc │ SERIES: VFK600 │ DESCRIPTION: DC-DC CONVERTER date 12/17/2013 │ page 5 of 8 TEST CONFIGURATION Figure 1 A +Vin Table 1 +Vout Recommended External components +S DC C1 TRIM V -S -Vin C2 A Load -Vout cui.com C1 220 μF/100 V C2 470 μF/100 V For more information, please visit the product page. CUI Inc │ SERIES: VFK600 │ DESCRIPTION: DC-DC CONVERTER date 12/17/2013 │ page 6 of 8 APPLICATION NOTES 1. Parallel Operation The VFK600 series are designed for parallel operation. When in parallel the load current can be shared equally between the two modules by connecting their PC pins. The VFK600 can be setup in two different modes to achieve parallel operation. The stan dard parallel operation is suitable when load cannot be handled by a single unit, whereas the N+1 redundant operation is suitable for loads when backup power is required. STANDARD PARALLEL CONNECTION PARALLEL CONNECTION WITH PROGRAMMED AND ADJUSTABLE OUTPUT +S +S +V +V -V -S PC -V -S TRIM PC +S L O A D +S +V +V -V -S TRIM PC -V -S PC N+1 REDUNDANT CONNECTION N+1 REDUNDANT CONNECTION WITH PROGRAMMED OUTPUT AND ADJUSTABLE OUTPUT VOLTAGE +S +S +V +V -V -S -V -S TRIM PC +S +V L O A D L O A D PC +S +V -V -S -V -S TRIM PC PC cui.com L O A D For more information, please visit the product page. CUI Inc │ SERIES: VFK600 │ DESCRIPTION: DC-DC CONVERTER date 12/17/2013 │ page 7 of 8 APPLICATION NOTES (CONTINUED) 2. Output Voltage Trimming Leave open if not used. Figure 2 Trim-Up/Trim-Down Formulas External Resistors +S 1.24 ×( VR Vf = +V 7.68 +( Load ) Rt + 33 Rt ×33 ) Rt + 33 Vout = (Vo + VR) × Vf -V Note: Rt = 6.8 KΩ VO is the nominal output voltage VOUT is the desired output voltage (up or down) VR is the trim resistor in KΩ -S TRIM Rt ×33 Rt Figure 3 Trim-Up/Trim-Down Formulas External DC Voltage Vout = VT × VO Note: VT is the trim terminal voltage VO is the nominal output voltage VOUT is the desired output voltage (up or down) Note: 1. All specifications measured at nominal line, full load, and 25°C unless otherwise specified. cui.com For more information, please visit the product page. CUI Inc │ SERIES: VFK600 │ DESCRIPTION: DC-DC CONVERTER date 12/17/2013 │ page 8 of 8 REVISION HISTORY rev. description date 1.0 initial release 11/04/2011 1.01 derating curves added 03/12/2012 1.02 V-Infinity branding removed 08/07/2012 1.03 updated spec 03/13/2013 added parallel operation and trimming information 12/17/2013 1.04 The revision history provided is for informational purposes only and is believed to be accurate. Headquarters 20050 SW 112th Ave. Tualatin, OR 97062 800.275.4899 Fax 503.612.2383 cui.com [email protected] CUI offers a two (2) year limited warranty. Complete warranty information is listed on our website. CUI reserves the right to make changes to the product at any time without notice. Information provided by CUI is believed to be accurate and reliable. However, no responsibility is assumed by CUI for its use, nor for any infringements of patents or other rights of third parties which may result from its use. CUI products are not authorized or warranted for use as critical components in equipment that requires an extremely high level of reliability. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.