150 Watt Industrial (VLT) NOT RECOMMENDED FOR NEW DESIGNS Features l 150 W fan-cooled rating l Smallest 150 W AC/DC power supply l Small 5 x 3.1 x 1 inches form factor l Dual channel output l EN61000-3-2 Class A & Class D harmonics l EN55022 and FCC Part15 Level B l Cover kit accessory available Electrical Specifications AC Input Input Frequency Input Current Inrush Current Leakage Current Efficiency Hold-up Time Output Power4,5 Line Regulation Load Regulation Transient Response Rise Time Set Point Tolerance Over Current Protection Over Voltage Protection Short Circuit Protection Switching Frequency Operating Temperature Storage Temperature Relative Humidity Altitude MTBF Isolation Voltage Cooling Redundancy Paralleling Function 90-264 V, Universal 47-63 Hz 120 VAC: 1.8 A max. 230 VAC: 0.9 A max. 120 VAC: Limited to safe value 230 VAC: Limited to safe value 120 VAC: < 500 A 230 VAC: < 1000 A 120 VAC: 82% typical 230 VAC: 85% typical 120 VAC: 10 ms 230 VAC: 10 ms 80 to 150 W +/-1% V1 & V2: +/-1%, V3 & V4: +/-5% < 10%, 50% to 100% load change, 50/60 Hz, 50% duty cycle, 0.1 A/s, recovery time < 5 ms < 10 ms V1 & V2: +/-1%, V3 & V4: +/-5% 107 to 150% 115 to 135%; 115 to 155% for 3.3 V Short term, autorecovery PFC converter: 70 kHz typical Resonant converter: 55 kHz typical 0 to 70C, refer derating curve -40 to +85C 95% Rh, noncondensing Operating: 10,000 ft.; Nonoperating: 40,000 ft. 1.38m Hours, Telcordia SR332 Issue-3 Min. 4242 VDC between input to output Convection: 80 W; 300 LFM: 150 W 1+1 No 31 4EM-17-002 39-DE60-40867-002 / B1 NOT RECOMMENDED FOR NEW DESIGNS Model Number Voltage LFVLT150-1106 V1=3.3 V LFVLT150-1100 V1=5.1 V LFVLT150-1101 V1=12 V LFVLT150-1103 V1=24 V LFVLT150-1104 V1=48 V LFVLT150-4100 V1=5.1 V, V2=3.3 V, V3=13 V, V4=-13.2 V LFVLT150-4101 V1=5.1 V, V2=3.3 V, V3=24 V, V4=-13.2 V LFVLT150-4102 V1=5.1 V, V2=3.3 V, V3=15 V, V4=-15 V LFVLT80-CK metal cover kit accessory Max. Load1 (Convection) Max. Load1 (300 LFM) Min. Load Ripple2 20.0 A 15.7 A 6.7 A 3.3 A 1.7 A V1=10.0 A, V2=10.0 A, V3=1.0 A, V4=1.0 A V1=10.0 A, V2=10.0 A, V3=0.5 A, V4=1.0 A V1=10.0 A, V2=10.0 A, V3=1.0 A, V4=1.0 A 36.0 A 29.4 A 12.5 A 6.25 A 3.13 A V1=16.0 A, V2=19.0 A, V3=1.5 A, V4=1.5 A V1=16.0 A, V2=19.0 A, V3=1.0 A, V4=1.0 A V1=16.0 A, V2=19.0 A, V3=1.5 A, V4=1.5 A 3.0 A 3.0 A 0.5 A 0.5 A 0.5 A V1, V2=0.5 A, V3, V4=0.1 A V1, V2=0.5 A, V3, V4=0.1 A V1, V2=0.5 A, V3, V4=0.1 A 1.5% 1% 1% 1% 1% V2=1.5%, V1, V3, V4=1% V2=1.5%, V1, V3, V4=1% V2=1.5%, V1, V3, V4=1% Connectors J1 Pin 1 Pin 2 Spade Connector J2 Pin 1 Pin 2 Pin 3, 4 Pin 5 Pin 6 Connectors AC NEUTRAL AC LINE EARTH V3 V2/V1B RTN V1/V1A V4 J3 Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 V2 CURRENT SHARE/V1B CURRENT SHARE V1 CURRENT SHARE/V1A CURRENT SHARE POWER FAIL (QUAD O/P ONLY) RTN -V1/-V1A REMOTE SENSE +V1/+V1A REMOTE SENSE +V2/+V1B REMOTE SENSE -V2/vB REMOTE SENSE Notes 1. Maximum current per output channel. Do not exceed total output power rating. 2. Ripple is peak to peak with 20 MHz bandwidth and 10 F (Tantalum capacitor) in parallel with a 0.1 F capacitor at rated line voltage and load ranges. 3. Power fail signal and power good signal on quad output models only. 4. Quad output models: The output section of the VLT150-4XXX is split into 2 independently regulated channels. Channel A consists of the main output V1 and auxiliary output V4. Channel B consists of the main output V2 and auxiliary output V3. The maximum output power that may be drawn per channel is 55 W with convection cooling or 75 W with fan cooling. 5. Single output models: The output section of the VLT150-1XXX is split into 2 independently regulated channels. Channel A consists of the main output V1A. Channel B consists of the main output V1B. An internal shunt resistor of value 0 Ohm connects both channels of the power supply. In an event whereby this shunt resistor is removed, the maximum output power that may be drawn per channel is 55 W with convection cooling or 75 W with fan cooling. 6. The use of remote sense function requires 300 LFM airflow. 7. Specifications are for nominal input voltage, 25C and max. load unless otherwise stated. 8. Derate output power linearly to 80% from 90 VAC to 80 VAC input. 2 Innovations in Power 4EM-17-002 39-DE60-40867-002 / B1 NOT RECOMMENDED FOR NEW DESIGNS Mechanical Specifications AC Input Connector (J1) EARTH DC Output Connector (J2) Signal Connector (J3) Dimensions Weight Molex: 26-60-4030 or equivalent; Mating: 09-50-3031; Pins: 08-50-0106 Molex: 19705-4301; Mating: 190030001 Tyco: 282841-6 or equivalent Molex: 22-23-2081 or equivalent; Mating: 22-01-2087; Pins: 08-50-0113 5.0 x 3.14 x 1.025 inches (127.0 x 77.22 x 27.18 mm) 340 g EMC CE Mark Conducted Emissions Static Discharge RF Field Susceptibility Fast Transients/Bursts Radiated Emissions Surge Susceptibility Harmonic Current Complies with LVD Directive EN55022-B, CISPR22-B, FCC PART15-B, EN50082-1 EN61000-4-2, Level-3 EN61000-4-3, Level-3 EN61000-4-4, Level-3 EN55022-B, CISPR22-B, FCC PART15-B, to be controlled in end system EN61000-4-5, Level-3 EN61000-3-2, Class A Safety Safety Standard(s) Approval Agency Safety File Number(s) IEC60950-1 (ed.2), EN60950-1, UL60950-1 (2nd Edition), CSA C22.2 No. 60950-1 (2nd Edition), Class 1 SELV Nemko, UL, C-UL Nemko: 165490 ; UL: E150565 Signal Power Fail Signal3 Remote Sense6 Power Good3 Signal goes low 1 ms advance before output goes out of regulation due to mains failure Compensation for 100 mV on V1 & V2 Signal goes high after main output is within regulation band, delay is 30 ms Derating Curve 33 4EM-17-002 39-DE60-40867-002 / B1 NOT RECOMMENDED FOR NEW DESIGNS Single Output Connection Connector J2 V1A V1B DC Return DC Return 5 2 3 4 Connector J3 -V1B Sense -V1A Sense +V1B Sense +V1A Sense 8 5 7 6 NC Common V1B Current Share V1A Current Share 3 4 1 2 +V Gnd Single Output 1+1 Redundant Configuration Quad Output Connection Connector J2 V1 V2 DC Return DC Return V3 V4 5 2 3 4 1 6 Connector J3 -V2 Sense -V1 Sense +V2 Sense +V1 Sense 8 5 7 6 Power Fail Common V2 Current Share V1 Current Share 3 4 1 2 V1 V2 V3 Gnd V4 Connector J2 V1A V1B DC Return DC Return 5 2 3 4 Connector J3 -V1B Sense -V1A Sense +V1B Sense +V1A Sense 8 5 7 6 NC Common V1B Current Share V1A Current Share 3 4 1 2 V1 Ground V1 5 2 3 4 Connector J2 V1A V1B DC Return DC Return 8 5 7 6 Connector J3 -V1B Sense -V1A Sense +V1B Sense +V1A Sense 3 4 1 2 Ground NC Common V1B Current Share V1A Current Share Quad Output 1+1 Redundant Configuration 1. To connect the voltage sense pins 5, 6, 7 and 8 on connector J3 to the load, it is recommended to use 22 gauge twisted pair wire. 2. For single output units, an internal 0 Ohm resistor shunt is used to internally connect the current share pins V1B current share (J3-2) and V1A current share (J3-1). 3. Pins J3-4, Common, should be connected to ground for correct operation. 4. The Power fail signal J3-3 is a TTL active high signal. The maximum source current is 0.45 mA and the maximum sink current is 0.25 mA. Connector J2 V1 V2 DC Return DC Return V3 V4 5 2 3 4 1 6 Connector J3 -V2 Sense -V1 Sense +V2 Sense +V1 Sense 8 5 7 6 Power Fail Common V2 Current Share V1 Current Share 3 4 1 2 V1 V2 V3 Ground V3 V4 V4 V2 V1 Ground 5 2 3 4 1 6 Connector J2 V1 V2 DC Return DC Return V3 V4 8 5 7 6 Connector J3 -V2 Sense -V1 Sense +V2 Sense +V1 Sense 3 4 1 2 Power Fail Common V2 Current Share V1 Current Share Mechanical Drawing Notes: In case the PCB is mounted in a metal enclosure, using metal hardware ensure the following 1. Stand off, used to mount PCB has OD of 5.4 mm max. 2. Screws, used to fix PCB on stand off, have head dia of 6.0 mm max. 3. Washer, if used, to have dia of 6.5 mm max. 4 4EM-17-002 39-DE60-40867-002 / B1 Innovations in Power