PPM50-G-xxELF PPM60-G-xxELF Mainzer Straße 151–153 D-55299 Nackenheim Tel. +49 6135 7026-0 Fax: +49 6135 931070 www.peak-electronics.de [email protected] PPM-SERIES Rev.03-2013 50-60 Watt Univ. 90-264VAC (122-370VDC) Single Output Over Voltage Protection (out) 4 kV AC I/O Isolation Low Ripple and Noise High Efficiency The PPM-Series are high efficiency green power moduls with various packaging provided by Peak. The features of this series are: wide input voltage, DC and AC all in one, high efficiency, high reliability, low loss, safety isolation etc. They are widely used in industrial, office and civil equipments. All specifications typical at Ta=25°C, nominal input voltage and full load unless otherwise specified Input Specifications Input Voltage Range Input Under Voltage Protection 90 – 264 VAC or 122 – 370 VDC universal Start-up Voltage: 65-90 Vac (92-122VDC) Shutdown Voltage: 55- 75 Vac (79-105 VDC) 47 – 63 Hz 115 VAC at 1.4A, typ 230 VAC at 0.7A, typ 115 VAC at 30A, typ 230 VAC at 50A, typ Input Frequency Input Current Inrush Current Output Specifications Voltage Accuracy Line Regulation (full load) Load Regulation (5-100%) Ripple and Noise (20Mhz bandwidth) Short Circuit Protection Over Current Protection Over Voltage Protection Min Load Trim Common Specifications Temperature range Power derating ±2% ±0.5%, typ ±1%, typ 150mV pk-pk, max Continuous, auto resume 110-150% , auto resume Zener Diode Clamp 1% 10% Storage Hold up Time Humidity Temperature Coefficient Switching Frequency I/O Isolation Voltage Safety Standards Safety Approvals Safety Class Hot swap Case Material Install Cooling Reliability Calculated MTBF (MIL-HDBK-217F) Weight -40°C to +70 °C 3% / °C (output: 05, 09 VDC) 2.5% / °C (output: 12,15,24,48 VDC) -40°C to +85 °C 15mS, typ. at 115VAC 80mS, typ at 230VAC 95%, max. ± 0.02%/°C 100kHz, typ 4000VAC / 1min. IEC60950, EN60950, UL60950 pending CLASS I Forbid UL94V-0 rated PCB Free air convection > 200,000 hrs ~ 310g PPM-Series – PPM50/60-G-xxELF – Single Output - Plastic Case Specification can change without a notice – We accept no liability for any inaccuracy or printing errors. Page 1/4 Selection Guide Single Output mA) ad ( o ) L c l l d t Fu e (V %) rren lta g ) u o W V cy ( C ( n t t r u e u i e p p Pow O ut O ut Effic Order # ax uF) e r, m ad ( w o o L P or dby acit Cap S ta n SINGLE OUTPUT PPM50-G-05ELF PPM50-G-09ELF PPM50-G-12ELF PPM60-G-15ELF PPM60-G-24ELF PPM60-G-48ELF 50 50 50 60 60 60 5 9 12 15 24 48 10000 6600 5000 4000 2500 1250 82 84 86 86 86 86 80000 28000 14000 12000 4000 1000 0.5W 0.5W 0.5W 0.5W 0.5W 0.5W If you need other specifications, please enquire. 6.00 [0.236] : 30.00 [1.181] Package / Pinning / Derating (Front View) Note: Unit: mm (inch) Pin 1,2 4, 5’s diameter: 1.80mm, Pin 3, 6’s diameter: 1.20mm 109.00 :4.291] [ 8.90 [0.350] : 97.30 [3.831] 2-∅1.20[0.047] (Bottom View) 5 4 5.08 [0.200] 2 6 46.30 [1.823] 58.50 :2.303] [ 19.05 [0.750] : 4-M3[0.118] 3 4-∅1.80[0.071] # 1 2 3 4 5 6 96.32 [3.792] : PIN CONNECTIONS SINGLE AC (N) AC (L) FG + Vo -Vo Trim 30.70 [1.209] 15.60 [0.614] 10.16 [0.400] : 1 Temperature Derating Graph Ambient Temperature ° C 24V, 48V Output Output 12V, 15V Output 100% 5V, 9V Output 62,5 60 50 25 -40 -30 0 45 50 55 70 100 PPM-Series – PPM50/60-G-xxELF – Single Output - Plastic Case Specification can change without a notice – We accept no liability for any inaccuracy or printing errors. Page 2/4 App Notes: Trim Application & Trim Calculation Application circuit for TRIM (Part in broken line is the interior of models) Formula for resistance of Trim +Vot +Vot R1 V ref Trim V ref R2 RT R1 R3 R3 Trim RT up: R T = aR 2 R 2 -a -R 3 a= Vref R1 Vot-Vref down: R T = aR 1 R 1 -a -R 3 a= Vot-Vref R2 Vref Note: Value for R1, R2, R3, and Vref refer to the following table. RT: Resistance of Trim a: User-defined parameter, no actual meanings. Vo(V) Resistance R2 5 9 12 15 24 48 R1(KΩ) 3.3 4.7 3.83 7.5 8.66 33 0V 0V R2(KΩ) 3.3 1.8 1 1.5 1 1.8 Trim up Trim down R3(KΩ) 1 1 1 1 1 1 Vref(V) 2.5 2.5 2.5 2.5 2.5 2.5 Vot(V) Output voltage of Trim, variation ≤ ±10% EMC EMI EMS ESD RS EFT Surge CS PFM Voltage dips, short and interruption immunity EN55022, level B IEC/EN 61000-4-2 ±6kV/8kV IEC/EN 61000-4-3 10V/m IEC/EN 61000-4-4 ±4kV IEC/EN 61000-4-5 ±2kV/4kV IEC/EN 61000-4-6 10 Vr.m.s. IEC/EN 61000-4-8 10A/m IEC/EN 61000-4-11 95% 5000ms perf. Criteria B perf. Criteria A perf. Criteria B perf. Criteria B perf. Criteria A perf. Criteria A perf. Criteria B Parallel Lines Measure C o p p e r sh e e t FU SE L L +Vo C1 AC-DC N N C2 Load C o n n e ct Oscillo g ra p h Pro b e -Vo 1 2 . 7 mm 2 5 . 4 mm 2 5 . 4 mm Note: C1: 1µF (Ceramic capacitor) C2: 10µF (Electrolytic capacitor) PPM-Series – PPM50/60-G-xxELF – Single Output - Plastic Case Specification can change without a notice – We accept no liability for any inaccuracy or printing errors. Page 3/4 App Notes: Typical Applications PPM-Series Fig 2 Fig 1 F US E L L N N C1 +Vo C2 TVS RL L L N N +Vo AC-DC -Vo FG FG +Vo -Vo -Vo Note: This application is not supported for this series. C y1 M O V4 L L C Y1 MO V2 CX M O V1 R1 LCM ACDC O U TPU T C Y2 N N MO V5 PE External Typical Value Model PPM50-G-05ELF PPM50-G-09ELF PPM50-G-12ELF PPM60-G-15ELF PPM60-G-24ELF PPM60-G-48ELF C1 C2 680µF 470 µF 330 µF 330 µF 200µF 100µF 1µF TVS SMBJ7.0A SMBJ12A SMBJ20A SMBJ30A SMBJ30A SMBJ64A Note 1. Output filtering capacitors C2 is electrolytic capacitors. It is recommended to use high frequency and low impedance electrolytic capacitors. For capacitance and current of capacitor, please refer to manufacture’s datasheet. Voltage derating of capacitor should be 80% or above. C1 is ceramic capacitor - it is used to filter high frequency noise. TVS is a recommended component to protect post-circuits (if converter fails). 2. External connect FUSE, recommended the parameter is 3.15A/250V slow blow. Figure 3 MOV1 561KD14 MOV2 MOV3 561KD14 CX 0.15µF/300VAC CY1 CY2 2200pF/400VAC NTC 5D-9 FUSE Recommended to use3.15A/250V slow blow. MOV4 MOV5 561KD07 R1 1MΩ/2W PPM-Series – PPM50/60-G-xxELF – Single Output - Plastic Case Specification can change without a notice – We accept no liability for any inaccuracy or printing errors. Page 4/4