Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Features Only 0.33 inches (8.38 mm) high in a hermetically sealed case models • Operating temperature –55° to +125°C Output Voltage (V) • Input voltage 16 to 40 Volts SINGLE -- MHF+281R9S 20 to 32 Volts - Triple output models 16 to 48 Volts • Transient protection - Single and dual: 50 V for 50 ms - MHF+281R9S: 35 V for 50 ms - Triple: 80 V for 120 ms DUAL TRIPLE 1.9 ±5 +5 & ±12 3.3 ±12 +5 & ±15 5 ±15 5.2 5.3 • Fully isolated 12 • Fixed high frequency switching 15 • Inhibit and synchronization functions 28 • Indefinite short circuit protection • Under voltage lockout DESCRIPTION MHF+ Series™ SingleS and DualS Interpoint® MHF+ Series singles and duals are high frequency dc-dc converters offering a wide input voltage range of 16 to 40 volts (MHF+281R9S, 20 to 32 volts) and up to 15 watts of output power. Transient protection up to 50 volts for up to 50 ms. The converters are offered with standard screening, “ES” screening, or fully compliant to “883” MIL-PRF-38534 Class H screening (see Table 13 on page 23). Standard Microcircuit Drawings (SMD) are available (see Table 3 on page 7. Converter Design The MHF+ Series single and dual converters are switching regulators that use a quasi-square wave, single-ended forward converter design with a constant switching frequency of 550 kHz typical. Isolation between input and output circuits is provided with a transformer in the forward path and a temperature compensated optical link in the feedback control loop. See Figure 1 and Figure 3 on page 4 For the MHF+ dual output models, good cross regulation is maintained by tightly coupled output magnetics. Up to 90% of the total output power (80% on 2805D) is available from either output, providing the opposite output is simultaneously carrying 10% of the total output power (20% on 2805D models). Predictable current limit is accomplished by directly monitoring the output load current and providing a constant current output above the overload point. Inhibit Function MHF+ converters provide an inhibit terminal that can be used to disable internal switching, resulting in no output current and very low quiescent input current. The converter is inhibited when the inhibit pin is pulled low (≤0.8 V = output disabled). Crane Aerospace & Electronics Power Solutions - Interpoint Products 10301 Willows Road NE, Redmond, WA, 98052 +1.425.882.3100 • [email protected] www.craneae.com/interpoint The unit is enabled when the pin, which is internally connected to a pull-up resistor, is left unconnected or is connected to an opencollector gate. The open circuit output voltage associated with the inhibit pin is 8.5 to 12 V. In the inhibit mode, a maximum of 5 mA must be sunk from the inhibit pin. See Figure 6 on page 5 Synchronization An external synchronization feature is included that allows the user to adjust the nominally 550 kHz operating frequency to any frequency within the range of 500 kHz to 600 kHz. This is initiated by applying a signal input of the desired frequency to pin 5. The capacitively coupled sync input will synchronize on a differential signal of as low as 4 volts to as high as 5 V. For single and dual output models, if the sync function is not used, connect the terminal to input common. Short Circuit Protection MHF+ Series single and dual output converters provide short circuit protection by restricting the output current to approximately 115% of the full load output current. The output current is sensed in the secondary stage to provide highly predictable and accurate current limiting, and to eliminate foldback characteristics. Undervoltage Lockout Undervoltage lockout prevents the single and dual output converters from operating below approximately 14 Volts input voltage to keep system current levels smooth, especially during initialization or re-start operations. Packaging MHF+ Series of converters are packaged in hermetically sealed metal cases and can be purchased in a flanged or non-flanged case. The flanged option provides increased heat dissipation and also provides greater stability when mechanically secured. Page 1 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt MHF+ Series™ Triple DC-DC converters MHF+ Series™ Triple dc-dc converters provide a wide input voltage range of 16 to 48 volts delivering 15 watts of total output power with output voltages of +5 and ±12 or +5 and ±15 volts. The main output, +5 volts, will supply up to 7.5 watts and the auxiliaries will supply up to 7.5 watts of combined power. Full power operation at -55°C to +125°C plus the ability to withstand transients of up to 80 V for up to 120 milliseconds make these converters an ideal choice for your high reliability systems. Converter Design MHF+ Triple Series of dc-dc converters incorporate dual-phase, phase-shifted technology with a continuous flyback topology. This design eliminates a minimum load requirement on the main output and eliminates cross regulation effects between the main output voltage and auxiliary output voltages. See Figure 3 on page 4. The phase-shifted design offers reduced input and output ripple. To meet MIL-STD-461 requirements use an EMI filter, see Figure 4 on page 4. FMCE-0328 is the recommended filter. Inhibit Function MHF+ converters provide an inhibit terminal that can be used to disable internal switching, resulting in no output current and very low quiescent input current. The converter is inhibited when the inhibit pin is pulled low (≤0.8 V = output disabled). The unit is enabled when the inhibit pin, which is internally connected to a pull-up resistor, is left unconnected or is connected to an opencollector gate. When inhibited, input current is reduced to 5 mA or less and there is no generation of switching noise. The inhibit terminal typically sinks 5 mA when the converter is inhibited. See Figure 7 on page 5. Soft Start Feature The soft-start feature provides a controlled 25 milliseconds maximum turn-on to minimize inrush current and reduce overshoot at initial start-up or when inhibit is released. Synchronization To synchronize the converter’s switching frequency to a system clock apply the clock signal to the sync terminal (pin 7). When multiple converters are powered from a single power source, asynchronous (free run) operation will result in lower peak noise for common spectral peaks, but synchronous operation will eliminate any possibility of interference frequencies in the low audio band. Source impedance of the signal should be less than 100 ohms and the transition time should be less than 100 nanoseconds. The capacitively coupled sync input will synchronize on a differential signal of as low as 4 volts to as high as 5 V. For triple output models, if the sync function is not used, the terminal should be left open. See Figure 5 on page 4. Short Circuit Protection On the triple output models, internal current limiting circuitry protects on all three outputs against short circuits. When output power exceeds approximately 130% of maximum output power, the output currents are limited. In addition, separate current limiting circuitry protects each output individually resulting in normal operation of either the main or the auxiliaries, whichever is not in a shorted condition. Undervoltage Lockout Undervoltage lockout prevents the triple output models units from operating below approximately 8.5 volts input voltage to keep system current levels smooth, especially during initialization or re-start operations. Packaging MHF+ Series of converters are packaged in hermetically sealed metal cases and can be purchased in a flanged or non-flanged case. The flanged option provides increased heat dissipation and also provides greater stability when mechanically secured. www.craneae.com/interpoint Page 2 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Positive Input 5 μH Regulator Positive Output 2 μF ID PWM Controller Inhibit FET Driver Ref. Limit IC Output Common Input Common Figure 1: MHF+ Single Output Block Diagram Positive Input 5 µH Regulator L2A Positive Output 2 µF ID Inhibit PWM Controller IC FET Driver Ref. Limit RS Input Common RS Output Common L2B Negative Output Figure 2: MHF+ Dual Output Block Diagram www.craneae.com/interpoint Page 3 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt 0° Positive Input +5 Output FEEDBACK ISOLATOR PWM CM CONTROLLER Output Common Input Common + Aux. Output FEEDBACK ISOLATOR Sync PWM CM CONTROLLER 180° –Aux. Output Figure 3: MHF+ Triple Output Block Diagram 1 Positive Output Positive Input 2 Positive Input FMCE-0328 EMI FILTER 28V 5 Input Common MHF+ Output Common 4 Case Ground 3 Input Common Case Ground Case* Chassis Ground *The case ground connection should be as low an impedance as possible to minimize EMI. Direct contact of baseplate to chassis ground provides the lowest impedance. Figure 4: EMI Filter Connection 9 28V 0.01 µF 7 5.1k Positive Input Sync In 1 Inhibit 8 Input Common +5 Output 2 + Aux. Output 4 Output Common 3 – Aux. Output 5 + Aux. Load – Aux. Load If the sync terminal (pin 7) is not used, it must be left floating. The ac coupling shown will prevent sync signal failure. Figure 5: AC Coupling of Sync Signal, Triple Models www.craneae.com/interpoint Page 4 of 23 MHF+ Rev AB - 2014.10.02 +5 Load Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt POSITIVE INPUT 5 kΩ INHIBIT 10 kΩ 1 kΩ PRIMARY BIAS 10 V INPUT COMMON Figure 6: Inhibit Interface Singles and Duals POSITIVE INPUT 10 kΩ PRIMARY BIAS INHIBIT 10 V INPUT COMMON Figure 7: Inhibit Interface Triples www.craneae.com/interpoint Page 5 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt PIN OUT Pin Single Output MHF+2828S Dual Output Triple Output 1 Inhibit Inhibit Inhibit Inhibit 2 No Connection Positive Output Positive Output Main (+5) Output 3 Output Common (See note 1) Output Common Output Common 4 Positive Output Output Common Negative Output Pos. Aux. Output 5 Sync In Sync In Sync In Neg. Aux. Output 6 Case Ground Case Ground Case Ground Case Ground 7 Input Common Input Common Input Common Sync 8 Positive Input Positive Input Positive Input Input Common 9 — — — Positive Input 1. Pin 3 of MHF+2828S will provide 14 Vout referenced to output common (pin 4). Table 1: Pin Out PINS NOT IN USE Inhibit: single, dual and triple, pin 1 Leave unconnected MHF+2828S, pin 3 Leave unconnected Sync: single and dual, pin 5 Connect to input common Sync: triple, pin 7 Leave unconnected Table 2: Pins not in Use Dot on top of case indicates pin one. 1 2 3 4 Squared corner and dot on top of case indicate pin one. 1 5 7 3 4 5 BOTTOM VIEW MHF+ Triple BOTTOM VIEW MHF+ SINGLE AND DUAL 8 2 9 6 Dotted line outlines flanged package option. 8 7 6 Dotted line outlines flanged package option. See Figure 33 on page 18 and Figure 35 on page 20 for dimensions. See Figure 34 on page 19 and Figure 36 on page 21 for dimensions. Figure 8: MHF+ Single and Dual Pin Out Figure 9: MHF+ Triple Pin Out www.craneae.com/interpoint Page 6 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt model numbering key MHF+ 28 12 Base Model Input Voltage Output Voltage (R = decimal point, 3R3 = 3.3 Vout; Main and aux. Vout for triple models) D SMD Numbers F / 883 Number of Outputs (S = single, D = dual, T = Triple) Case Option (Non-flanged case has no designator in this position) Screening (Standard screening has no designator in this position.) Standard Microcircuit Drawing (SMD) MHF+ Similar Part 5962-0251001HXC mhf+283r3s/883 5962-9213901HXC MHF+2805S/883 5962-0325301HXC mhf+285R2s/883 5962-9166401HXC MHF+2812S/883 5962-9160101HXC MHF+2815S/883 5962-9689801HXC mhf+2828S/883 5962-9555901hxc mhf+2805d/883 5962-9214401HXC MHF+2812D/883 5962-9161401HXC MHF+2815D/883 5962-9560101hxc MHF+28512t/883 5962-9560201hxc mhf+28515t/883 Flanged SMDs have the suffix HZC instead of HXC. For exact specifications for an SMD product, refer to the SMD drawing. SMDs can be downloaded from www.landandmaritime.dla.mil/programs/smcr Figure 10: Model Numbering Key Table 3: SMD Cross Reference To Category Options Fill in for Model # model Number Options 1 determine the model number enter one option from each category in the form below. Base Model and Input Voltage MHF+28 Output Voltage 2 Case Option 4 Screening 5 (non-flanged, leave blank) Standard (leave blank) Number of Outputs 3 1R9, 3R3, 05, 5R2, 5R3, 12, 15, 28 S 05, 12, 15 D 512, 515 T /ES F (flanged) /883 (Class H) / __________ MHF+28 Notes 1. See “Figure 10: Model Numbering Key” above for an example of a model number. 2. Output Voltage: An R indicates a decimal point. 1R9 is 1.9 volts out. The values of 1R9, 3R3, 5R2 and 5R3 are only available in single output models. The 512 and 515 triple output converters are +5 volt main and ±12 or ±15 volt auxiliaries. 3. Number of Outputs: S is a single output, D is a dual output, and T is a triple output 4. Case Options: For the standard, non-flanged, case leave the case option blank. See non-flanged cases Figure 33 on page 18 and Figure 34 on page 19. For the flanged case use an F in the case option position. See flanged cases Figure 35 on page 20 and Figure 36 on page 21). 5. Screening: For standard screening leave the screening option blank. For other screening options, insert the desired screening level. For more information see Table 12 on page 22 and Table 13 on page 23. Table 4: Model Number Options www.craneae.com/interpoint Page 7 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Table 5: Operating Conditions, All Models : 25°C case, 28 Vin, 100% load, unless otherwise specified. All Models PARAMETER CONDITIONS LEAD SOLDERING TEMPERATURE 1 STORAGE TEMPERATURE 10 seconds max. 1 TYP MAX — — 300 °C °C -65 — +150 CASE OPERATING FULL POWER -55 — +125 TEMPERATURE ABSOLUTE 1 -55 — +135 DERATING OUTPUT POWER/CURRENT 1 LINEARLY 1 ESD RATING Class 3B MIL-PRF-38534, 3.9.5.8.2 pin to case except case pin UnderVoltage Lockout >8000 @ 500 VDC at 25°C CURRENT LIMIT % OF FULL LOAD — — Singles and Duals — 14 — Triples — 8.5 — — 60 — Singles and Duals — 115 — Triples — 130 — — 50 — Singles and Duals 480 — 620 Triples 375 — 500 Singles and Duals 500 — 600 TRiples 400 — 600 DUTY CYCLE 1 40 — 60 ACTIVE LOW — — 0.8 ACTIVE HIGH 1 4.0 — 5.0 AUDIO REJECTION 1 CONVERSION FREQUENCY FREE RUN -55°C TO +125°C SYNCHRONIZATION 3 Megohms V pF % dB kHz INPUT FREQUENCY REFERENCED TO 4 V Leave unconnected inhibit pin pulled low — INHIBIT PIN SOURCE CURRENT 1 — REFERENCED TO INHIBIT ACTIVE HIGH (OUTPUT ENABLED) % Connect to input common If not used, TRiples INHIBIT ACTIVE LOW (OUTPUT DISABLED) kHz INPUT COMMON If not used, Singles and Duals Do not apply a voltage to the inhibit pin. V 100 INPUT TO OUTPUT CAPACITANCE 1 2 °C From 100% at 125°C to 0% at 135°C MIL-STD-883 Method 3015 ISOLATION: input to output or any UNITS MIN — 0.8 V — 5 mA INPUT COMMON INHIBIT PIN CONDITION OPEN COLLECTOR OR Do not apply a voltage to the inhibit pin. 4 UNCONNECTED OPEN INHIBIT PIN VOLTAGE 1 Single and Dual 8.5 10 12 Triple — 11 — V For mean time between failures (MTBF) contact Applications Engineering: [email protected] or +1.425.882.3100 option 7 Notes 1. Guaranteed by design and/or analysis. Not an in-line test. 2. Dual and triple outputs: The over-current limit will trigger when the sum of the currents from both dual outputs or both auxiliary outputs (triple) reaches the maximum rated “total” current of both outputs. Typical values are stated in the table. 3. Triple models: Source impedance should be <100 ohms and the transition times should be <100 nanoseconds. 4. An external inhibit interface should be used to pull the inhibit low or leave it floating. The inhibit pin can be left unconnected if not used. www.craneae.com/interpoint Page 8 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Table 6: Electrical Characteristics -55°C to +125°C case, 28 Vin, 100% load, free run, unless otherwise specified. single output models PARAMETER MHF+281R9S CONDITIONS OUTPUT VOLTAGE OUTPUT CURRENT OUTPUT POWER OUTPUT RIPPLE 10 kHz - 2 MHz LINE REGULATION MHF+283R3S MHF+2805S MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS 1.84 1.90 1.96 3.20 3.30 3.40 4.85 5.00 5.15 V VIN = 16 to 40 V 0 – 3.5 0 — 2.4 0 — 2.4 A 0 — 6.65 0 — 8 0 — 12 W TC = 25°C — 7 30 — 30 80 — 30 80 — 12 40 — 50 240 — 60 100 VIN = 16 to 40 V TC = -55°C to +125°C mV p-p VIN = 16 to 40 V — 1 40 – 5 100 — 5 50 mV LOAD REGULATION 2 NO LOAD TO FULL — 35 55 – 20 50 — 20 50 mV INPUT VOLTAGE CONTINUOUS 20 28 32 16 28 40 16 28 40 V NO LOAD TO FULL TRANSIENT 50 ms 1 — — 35 — — 50 — — 50 V INPUT CURRENT NO LOAD — 16 35 — 25 40 — 25 40 INHIBITED — 2 7 — 5 12 — 5 12 10 kHz - 10 MHz — 30 70 – 45 120 — 35 100 TC = 25°C 58 62 — 70 75 – 75 77 — 56 — — 67 — — 72 — — — 4 8 — 5 8 — 3.5 6 INPUT RIPPLE CURRENT EFFICIENCY LOAD FAULT 3 TC = -55°C to +125°C POWER DISSIPATION 1 mA mA p-p % W SHORT CIRCUIT RECOVERY — 5 30 — 7.5 30 — 7.5 30 ms STEP LOAD RESPONSE 4, 5 TRANSIENT — ±75 ±500 — ±150 ±400 — ±150 ±400 mV pk 50% - 100% - 50% RECOVERY — 500 2000 — 150 300 — 150 300 µs STEP LINE RESPONSE 1, 4, 6, 7 TRANSIENT — ±300 ±600 — ±550 ±800 — ±550 ±800 mV pk VIN = 16 - 40 - 16 V RECOVERY — 0.5 1.2 — 0.8 1.2 — 0.8 1.2 ms START-UP 8 Capacitive Load 1, 9 DELAY — 12 35 – 10 25 — 10 25 ms OVERSHOOT 1 — 500 850 — 200 300 — 100 600 mV pk TC = 25°C — — 100 – – 300 – – 300 µF Notes 1. Guaranteed by qualification test and/or analysis. Not an in-line test. 2. For MHF+281R9, load regulation is tested from a 10 mA load to full load. 3.Indefinite short circuit protection not guaranteed above 125°C (case). 4.Recovery time is measured from application of the transient to the point at which VOUT is within regulation. www.craneae.com/interpoint 5.Step transition time >10 µs. 6. Step transition time 100 µs ±20% 7. Step line is 20 - 32 - 20 volts for MHF+281R39S. 8. Measured on release from inhibit. 9. No effect on dc performance. Page 9 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Table 7: Electrical Characteristics -55°C to +125°C case, 28 Vin, 100% load, free run, unless otherwise specified. single output models PARAMETER MHF+285R2S CONDITIONS OUTPUT VOLTAGE OUTPUT CURRENT OUTPUT POWER OUTPUT RIPPLE 10 kHz - 2 MHz LINE REGULATION MHF+285R3S MHF+2812S MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS 5.04 5.20 5.36 5.19 5.30 5.51 11.76 12.00 12.24 V VIN = 16 to 40 V 0 — 2.4 0 — 2.83 0 — 1.25 A 0 — 12.48 0 — 15 0 — 15 W TC = 25°C — 30 50 — 30 50 — 30 80 — 60 100 — 60 100 — 50 120 VIN = 16 to 40 V TC = -55°C to +125°C mV p-p VIN = 16 to 40 V — 5 50 — 5 50 — 5 50 mV LOAD REGULATION NO LOAD TO FULL — 20 50 — 20 50 — 20 50 mV INPUT VOLTAGE CONTINUOUS 16 28 40 16 28 40 16 28 40 V NO LOAD TO FULL TRANSIENT 50 ms 1 — — 50 — — 50 — — 50 V INPUT CURRENT NO LOAD — 25 43 — 24 43 — 25 50 INHIBITED — 5 12 — 5 12 — 5 12 10 kHz - 10 MHz — 35 120 — 35 120 — 35 120 TC = 25°C 75 77 — 75 77 — 78 79 — 72 — — 72 — — 74 — — — 3.5 6 — 3.5 6 — 3.5 6 INPUT RIPPLE CURRENT EFFICIENCY LOAD FAULT 2 TC = -55°C to +125°C POWER DISSIPATION 1 mA mA p-p % W SHORT CIRCUIT RECOVERY — 7.5 30 — 7.5 30 — 7.5 30 ms STEP LOAD RESPONSE 3, 4 TRANSIENT — ±150 ±400 — ±150 ±400 — ±150 ±500 mV pk 50% - 100% - 50% RECOVERY — 150 300 — 150 300 — 150 300 µs STEP LINE RESPONSE 1, 3, 5 TRANSIENT — ±550 ±800 — ±550 ±800 — ±550 ±800 mV pk VIN = 16 - 40 - 16 V RECOVERY — 0.8 1.2 — 0.8 1.2 — 0.8 1.2 ms START-UP 6 Capacitive Load 1, 7 DELAY — 10 25 — 10 25 — 10 25 ms OVERSHOOT 1 — 100 600 — 100 600 — 200 1200 mV pk TC = 25°C — — 300 — — 300 — — 100 µF Notes 1. Guaranteed by qualification test and/or analysis. Not an in-line test. 2.Indefinite short circuit protection not guaranteed above 125°C case. 3.Recovery time is measured from application of the transient to the point at which VOUT is within regulation. www.craneae.com/interpoint 4.Step transition time >10 µs. 5. Step transition time 100 µs ±20% 6. Measured on release from inhibit. 7. No effect on dc performance. Page 10 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Table 8: Electrical Characteristics -55°C to +125°C case, 28 Vin, 100% load, free run, unless otherwise specified. single output models MHF+2815S CONDITIONS MHF+2828S UNITS MIN TYP MAX MIN TYP MAX 14.70 15.00 15.30 27.44 28.00 28.56 VIN = 16 to 40 V 0 — 1.00 0 — 0.536 A 0 — 15 0 — 15 W TC = 25°C — 30 80 — 60 120 — 50 120 — 100 180 — 5 50 — 50 150 mV LOAD REGULATION VIN = 16 to 40 V NO LOAD TO FULL — 20 50 — 50 150 mV INPUT VOLTAGE CONTINUOUS 16 28 40 16 28 40 V — — 50 — — 50 V NO LOAD — 25 62 — 25 60 INHIBITED — 5 12 — 5 12 PARAMETER OUTPUT VOLTAGE OUTPUT CURRENT OUTPUT POWER VIN = 16 to 40 V OUTPUT RIPPLE 10 kHz - 2 MHz TC = -55°C to +125°C LINE REGULATION NO LOAD TO FULL TRANSIENT 50 ms INPUT CURRENT 1 V mV p-p mA INPUT RIPPLE CURRENT 10 kHz - 10 MHz — 35 120 — 35 120 EFFICIENCY TC = 25°C 78 80 — 82 84 — TC = -55°C to +125°C 74 — — 78 — — POWER DISSIPATION — 3.5 6 — 3.5 6 W RECOVERY 1 — 7.5 30 — 7.5 30 ms LOAD FAULT 2 SHORT CIRCUIT mA p-p % STEP LOAD RESPONSE 3, 4 TRANSIENT — ±200 ±600 — ±600 ±800 mV pk 50% - 100% - 50% RECOVERY — 150 300 — 200 400 µs TRANSIENT — ±550 ±800 — ±1100 ±1200 mV pk RECOVERY — 0.8 1.2 — 0.8 1.2 ms DELAY — 10 25 — 10 25 ms — 200 1500 — 200 280 mV pk — — 100 — — 100 µF STEP LINE RESPONSE VIN = 16 - 40 - 16 V START-UP 6 1, 3, 5 OVERSHOOT Capacitive Load 1, 7 1 TC = 25°C Notes 1. Guaranteed by qualification test and/or analysis. Not an in-line test. 2.Indefinite short circuit protection not guaranteed above 125°C case. 3.Recovery time is measured from application of the transient to the point at which VOUT is within regulation. www.craneae.com/interpoint 4.Step transition time >10 µs. 5. Step transition time 100 µs ±20% 6. Measured on release from inhibit. 7. No effect on dc performance. Page 11 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Table 9: Electrical Characteristics -55°C to +125°C case, 28 Vin, 100% load, free run, unless otherwise specified. DUAL output models MHF+2805D MHF+2812D MHF+2815D PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX OUTPUT VOLTAGE + VOUT 4.85 5.00 5.15 11.76 12.00 12.24 14.70 15.00 15.30 4.82 5.00 5.18 11.70 12.00 12.30 14.63 15.00 15.38 EITHER OUTPUT 0 ±1.2 1.921 0 ±0.625 1.1251 0 ±0.50 0.901 VIN = 16 to 40 V TOTAL OUTPUT — — 2.4 — — 1.25 — — 1.0 OUTPUT POWER 2, 3 EITHER OUTPUT 0 ±6 9.61 0 ±7.5 13.51 0 ±7.5 13.51 VIN = 16 to 40 V TOTAL OUTPUT — — 12 — — 15 — — 15 TC = 25°C — 30 80 — 30 80 — 30 60 — 60 80 — 60 120 — 50 120 + VOUT — 5 50 — 5 50 — 5 50 + VOUT - VOUT OUTPUT CURRENT 2, 3 OUTPUT RIPPLE UNITS V A W mV p-p ±VOUT, 10 kHz - 2 MHz TC = -55°C to +125°C VIN = 16 to 40 V - VOUT — — 80 — — 100 — — 100 — 20 50 — 20 50 — 20 50 NL to Full, Balanced - VOUT — — 100 — — 100 — — 100 — — 375 — — 720 — — 900 mV CONTINUOUS 16 28 40 16 28 40 16 28 40 V V LINE REGULATION LOAD REGULATION CROSS REGULATION 4 TC = 25°C INPUT VOLTAGE 1 mV mV NO LOAD TO FULL TRANSIENT 50 ms — — 50 — — 50 — — 50 INPUT CURRENT NO LOAD — 20 40 — 25 50 — 25 50 INHIBITED — 6 12 — 5 12 — 5 12 10 kHz - 10 MHz — 20 80 — 35 100 — 35 100 TC = 25°C 77 79 — 76 83 — 76 84 — 75 — — 74 — — 74 — — — 3 6 — 3 6 — 3 6 W ms INPUT RIPPLE CURRENT EFFICIENCY TC = -55°C to +125°C LOAD FAULT 5 POWER DISSIPATION 1 mA mA p-p % Short Circuit RECOVERY — 7.5 30 — 7.5 50 — 7.5 50 STEP LOAD RESPONSE 6, 7 TRANSIENT +Vout — ±200 ±600 — ±300 ±700 — ±300 ±700 — ±150 ±600 — ±100 ±700 — ±100 ±700 RECOVERY — 150 500 — 200 500 — 200 500 µs 50% - 100% - 50% TRANSIENT Balanced Loads STEP LINE RESPONSE 1, 6, 8 -Vout mV pk TRANSIENT — ±600 ±800 — ±550 ±750 — ±550 ±750 mV pk VIN = 16 - 40 - 16 V ±Vout RECOVERY — 0.8 1.2 — 0.8 1.2 — 0.8 1.2 ms DELAY — 12 20 — 12 25 — 12 25 ms Vin = 40 V OVERSHOOT 1 — 80 250 — 200 750 — 200 750 mV pk TC = 25°C — — 47 — — 10 — — 10 µF START-UP 9 Capacitive Load 1, 10, 11 Notes 1. Guaranteed by qualification test and/or analysis. Not an in-line test. 2.Up to 90% (80% 2805D) of the total output current/power is available from either output providing the opposite output is carrying at least 10% (20% 2805D) of the total output power. 3. The “total” specification is the maximum combined current/power of both outputs. 4.Effect on negative VOUT referenced to 50%/50% loads. 50% to 10% with the opposite output held at 50% (applied to both outputs), see Figure 20 on page 16. Simultaneously 30%-70% 70%-30%. 5.Indefinite short circuit protection not guaranteed above 125°C (case). www.craneae.com/interpoint 6.Recovery time is measured from application of the transient to point at which VOUT is within regulation. 7.Step transition time >10 µs. 8. Step transition time 100 µs ±20% 9. Measured on release from inhibit. 10. Applies to each output. 11. No effect on dc performance. Page 12 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Table 10: Electrical Characteristics -55°C to +125°C case, 28 Vin, 100% load, free run, unless otherwise specified. 5 2 (main) triple output model – MHF+28512T PARAMETER CONDITIONS OUTPUT VOLTAGE Vout ±12 (AUXiliaries) MIN TYP MAX MIN 4.85 2 5.00 5.15 either OUtput — — 1.5 Total — — OUTPUT POWER 4 Either Output — Vin = 16 to 48 V Total 10 kHz - 2 MHz TC = 25°C TC = -55°C to +125°C OUTPUT CURRENT 3 Vin = 16 to 48 V OUTPUT RIPPLE LINE REGULATION LOAD REGULATION 5 CROSS REGULATION TC = 25°C 6 INPUT VOLTAGE MAX ±11.52 ±12.00 0 ±0.313 ±12.48 0.416 1 1.5 — — 0.625 — 7.5 — ±3.75 51 — — 7.5 — — 7.5 — 20 60 — ±30 ±90 — — 90 — — ±180 Vin = 16 to 48 V — 25 75 — ±120 ±240 mV NO LOAD TO FULL — 22 75 — ±120 ±240 mV EFFECT ON NEGATIVE AUXILIARY — — — — — 750 mV CONTINUOUS 16 28 48 — — — V V 1 NO LOAD TO FULL TRANSIENT 120 ms — — 80 — — — INPUT CURRENT NO LOAD — 30 45 — — — INHIBITED — 3 5 — — — INPUT RIPPLE CURRENT 3 10 kHz - 10 MHz — 20 50 — — — EFFICIENCY TC = 25°C 74 76 — — — — 72 — — — — — — — 12 — — ±12 LOAD FAULT 7, 8 UNITS TYP TC = -55°C to +125°C POWER DISSIPATION 1 V A W mV p-p mA mA p-p % W SHORT CIRCUIT RECOVERY — — 25 — — 25 ms STEP LOAD RESPONSE 9, 10 TRANSIENT — — ±850 — — ±950 mV pk RECOVERY — 5 8 — 2 3 ms STEP LINE RESPONSE 1, 9, 11 TRANSIENT — — ±800 — — ±800 mV pk VIN = 16 - 40 - 16 V RECOVERY — — 5 — — 5 ms DELAY NO LOAD AND FULL — 10 25 — 10 ±25 ms OVERSHOOT 1 — — 500 — — ±500 mV pk START-UP 12 Notes 1. Guaranteed by qualification test and/or analysis. Not an in-line test. 2. If running with external sync, at temperature extremes VOUT main may be a minimum of 4.80 volts to a maximum of 5.20 volts. 3. The sum of the 12 volt auxiliary output currents may not exceed 625 mA. 4. The sum of the auxiliary output power may not exceed 7.5 watts. Up to 5 watts (approximately 66%) of the total auxiliary output power is available from either output providing the opposite output is simultaneously carrying 2.5 watts (approximately 33%) of the total auxiliary power. 5.Load regulation for the +5 is specified at 0.0 to 1.5 A with the auxiliaries both held at 3.75 W (313 mA). Load regulation for the auxiliaries is specified as both auxiliaries from 0.0 to 3.75 W (313 mA) at the same time with the +5 held at 1.5 A. www.craneae.com/interpoint 6. Cross regulation only occurs between the two auxiliaries and is measured on –aux. +5 is held constant at 1.0 A. Cross regulation is specified for two conditions: Negative aux.= 3.76 W; positive aux.= 0.37 W to 3.76 W. Negative aux. = 0.37 W to 3.76 W; positive aux. = 3.76 W. 7. Load fault = < 0.100 Ω. 8. Indefinite short circuit protection not guaranteed above 125°C case. 9. Time to settle to within 1% of VOUT final value. 10. Step transition time > 10 µs. 11. Step transition time 100 µs ±20%. 12. Measured on release from inhibit. Page 13 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Table 11: Electrical Characteristics -55°C to +125°C case, 28 Vin, 100% load, free run, unless otherwise specified. 5 2 (MAIN) triple output model – MHF+28515T PARAMETER OUTPUT VOLTAGE OUTPUT CURRENT 3 ±15 (AUXILIARIES) UNITS CONDITIONS MIN TYP MAX MIN TYP MAX Vout 4.85 5.00 5.15 14.40 15.00 15.60 either OUtput — — 1.5 0 ±0.250 Total — — 1.5 — — 0.500 OUTPUT POWER 4 Either Output — — 7.5 — ±3.75 51 Vin = 16 to 48 V Total — — — — — 7.5 Vin = 16 to 48 V OUTPUT RIPPLE TC = 25°C 10 kHz - 2 MHz TC = -55°C to +125°C LINE REGULATION LOAD REGULATION 5 CROSS REGULATION TC = 25°C 6 INPUT VOLTAGE INPUT CURRENT 0.333 1 — 20 60 — ±30 ±112 — — 90 — — ±225 mV p-p — 25 75 — ±150 ±300 mV — 25 75 — ±150 ±300 mV EFFECT ON NEGATIVE AUXILIARY — — — — — 750 mV CONTINUOUS 16 28 48 — — — V TRANSIENT 1 120 ms — — 80 — — — V — 30 45 — — — — 3 5 — — — INPUT RIPPLE CURRENT 3 10 kHz - 10 MHz — 20 50 — — — EFFICIENCY TC = 25°C STEP LOAD RESPONSE W Vin = 16 to 48 V NO LOAD TC = -55°C to +125°C POWER DISSIPATION SHORT CIRCUIT 9, 10 A NO LOAD TO FULL INHIBITED LOAD FAULT 7, 8 V 74 76 — — — — 72 — — — — — — — 12 — — ±12 mA mA p-p % W RECOVERY 1 — — 25 — — 25 ms TRANSIENT — — ±850 — — ±950 mV pk RECOVERY — 5 8 — 2 3 ms STEP LINE RESPONSE 1, 9, 11 TRANSIENT — — ±800 — — ±800 mV pk VIN = 16 - 40 - 16 V RECOVERY — — 5 — — 5 ms DELAY NO LOAD AND FULL — 10 25 — 10 25 ms OVERSHOOT 1 — — 500 — — ±500 mV pk START-UP 12 Notes 1. Guaranteed by qualification test and/or analysis. Not an in-line test. 2. If running with external sync, at temperature extremes VOUT main may be a minimum of 4.80 volts to a maximum of 5.20 volts. 3. The sum of the 15 volt auxiliary output currents may not exceed 500 mA. 4. The sum of the auxiliary output power may not exceed 7.5 watts. Up to 5 watts (approximately 66%) of the total auxiliary output power is available from either output providing the opposite output is simultaneously carrying 2.5 watts (approximately 33%) of the total auxiliary power. 5.Load regulation for the +5 is specified at 0.0 to 1.5 A with both auxiliaries held at 3.75 W (250 mA). Load regulation for the auxiliary. is specified as both auxiliaries from 0.0 to 3.75 W (250 mA) at the same time with the +5 held at 1.5 A. www.craneae.com/interpoint 6. Cross regulation only occurs between the two auxiliaries and is measured on –aux. +5 is held constant at 1.0 A. Cross regulation is specified for two conditions: Negative aux.= 3.76 W; positive aux.= 0.37 W to 3.76 W. Negative aux. = 0.37 W to 3.76 W; positive aux. = 3.76 W. 7. Load fault = < 0.100 Ω. 8. Indefinite short circuit protection not guaranteed above 125°C case. 9. Time to settle to within 1% of VOUT final value. 10. Step transition time > 10 µs. 11. Step transition time 100 µs ±20%. 12. Measured on release from inhibit. Page 14 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Typical Performance Plots: 25°C case, 28 Vin, 100% load, free run, unless otherwise specified. These are examples for reference only and are not guaranteed specifications. 0 –20 100% to 10% 100% to 50% –30 –40 –50 –60 100 mV/div. 100 mV/div. 90 16V 80 50% to 100% –70 EFFICIENCY (%) ATTENUATION (dB) –10 –80 –90 –100 0.1 1 10 FREQUENCY (kHz) 50 µs/div 50% 100% 100 MHF+ SERIES AUDIO REJECTION MHF+2805S STEP LOAD RESPONSE Figure 11 10% to 100% 70 40V 200 µs/div 60 10% 100% 28V MHF+2805S STEP LOAD RESPONSE 50 Figure 12 Figure 13 40 2 4 6 8 10 12 14 15 OUTPUT POWER (Watts) 20 V/div. 500 mV/div. MHF+2815D EFFICIENCY 20 V/div. VOUT 1 V/div. VIN 1 ms/div 16 V TO 40 V VIN 2 ms/div MHF+2805S STEP LINE RESPONSE MHF+2805S TURN-ON INTO FULL LOAD Figure 14 Figure 15 90 90 EFFICIENCY (%) EFFICIENCY (%) 16 V 80 70 40 V 28 V 60 90 50 70 40 V 60 50 2 4 6 8 10 OUTPUT POWER (Watts) MHF+2805S EFFICIENCY Figure 16 www.craneae.com/interpoint 12 40 16 V 80 28 V EFFICIENCY (%) 16 V 80 40 POUT = 12 W VOUT 70 40 V 28 V 60 50 2 4 6 8 10 12 OUTPUT POWER (Watts) 14 15 MHF+2812S EFFICIENCY Figure 17 Page 15 of 23 MHF+ Rev AB - 2014.10.02 40 2 4 6 8 10 12 14 15 OUTPUT POWER (Watts) MHF+2815S EFFICIENCY Figure 18 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Typical Performance Plots: 25°C case, 28 Vin, 100% load, free run, unless otherwise specified. These are examples for reference only and are not guaranteed specifications. 10 5 2812D 2815D 0 2805D 8 6 100% to 50% 2812D 4 COND A 2 0 2815D –2 –10 COND B –4 –5 0 20 40 2812D –6 2805D –8 60 80 50% to 100% 2805D –10 100 10 20 30 40 CROSS REGULATION 50 µs/div 50% 100% 50 OUTPUT LOAD (%) COND. A: 50% LOAD +V; 50% to 10% –V COND. B: 50% LOAD –V; 50% to 10% +V POSITIVE OUTPUT LOAD (% OF TOTAL LOAD) –VOUT WITH SHIFT IN LOAD BALANCE MHF+2815D +VOUT STEP LOAD RESPONSE MHF+2805D/MHF+2812D/MHF+2815D CROSS REGULATION Figure 19 Figure 20 Figure 21 PO = 7.5 W 50 µs/div 20% 100% MHF+2815D +VOUT STEP LOAD RESPONSE Figure 22 5 V/div. 20 V/div. 20% to 100% +VOUT VIN 20 V/div. –VOUT 200 mV/div. 100 mV/div. 100% to 20% MHF+2815D STEP LINE RESPONSE Figure 23 VIN MHF+2815D TURN-ON INTO FULL LOAD Figure 24 90 90 16V 16V 16V 80 EFFICIENCY (%) 40V 28V 60 70 40V 60 50 50 40 40 2 4 6 8 10 OUTPUT POWER (Watts) MHF+2805D EFFICIENCY Figure 25 www.craneae.com/interpoint 12 EFFICIENCY (%) 80 80 EFFICIENCY (%) +VOUT 2 ms/div 1 ms/div 16V TO 40V 90 70 PO = 7.5 W 100 mV/div. –VOUT VOLTAGE CHANGE (%) –V OUT VOLTAGE CHANGE (%) 10 28V 70 40V 60 28V 50 40 2 4 6 8 10 12 14 15 OUTPUT POWER (Watts) MHF+2812D EFFICIENCY Figure 26 Page 16 of 23 MHF+ Rev AB - 2014.10.02 2 4 6 8 10 12 14 15 OUTPUT POWER (Watts) MHF+2815D EFFICIENCY Figure 27 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt 10 V/div. 200 mV/div. Typical Performance Plots: 25°C case, 28 Vin, 100% load, free run, unless otherwise specified. These are examples for reference only and are not guaranteed specifications. 5V VIN 2 V/div. 500 mV/div. Input ground +15 V –15 V +5 V +5 ground 5 ms/div. 16 TO 40 VIN,15 = 250 mA EACH, +5 = 1.5 A 5 ms/div. MHF+28512T TURN ON INTO FULL LOAD MAIN MHF+ 28515T STEP LINE RESPONSE MHF+28515T has a similar response MHF+28512T has a similar response Figure 29 10 V/div. Figure 28 VIN 5 V/div. +12 V –12 V 5 ms/div. MHF+28512T TURN ON INTO FULL LOAD AUXILIARIES MHF+28515T has a similar response 80 Figure 30 16 V 75 16 V 75 EFFICIENCY EFFICIENCY 28 V 70 28 V 70 48 V 65 48 V 65 60 55 80 60 2 4 6 8 10 12 14 55 16 OUTPUT POWER (W) 4 6 8 10 12 OUTPUT POWER (W) MHF+28512T EFFICIENCY 14 MHF+28515T EFFICIENCY Figure 31 www.craneae.com/interpoint 2 Figure 32 Page 17 of 23 MHF+ Rev AB - 2014.10.02 16 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt BOTTOM VIEW CASE E1 Projection Weld 1.130 max. (28.70) 0.960 (24.38) 0.030 dia. (0.76) Squared corner and dot on top of case indicate pin one. 1 2 8 0.160 (4.06) 3 4 5 7 6 1.460 max. (37.08) 1.105 (28.07) 0.905 (22.99) 0.705 (17.91) 0.505 (12.83) 0.205 (5.21) 0.000 0.25 (6.35) 0.000 0.330 max. (8.38) 0.000 Weight: 30 grams maximum Case dimensions in inches (mm) Tolerance ±0.005 (0.13) for three decimal places ±0.01 (0.3) for two decimal places unless otherwise specified CAUTION Heat from reflow or wave soldering may damage the device. Solder pins individually with heat application not exceeding 300°C for 10 seconds per pin. Materials Header Cold Rolled Steel/Nickel/Gold Cover Kovar/Nickel Pins #52 alloy/Gold compression glass seal. Gold plating of 50 - 150 microinches included in pin diameter Seal Hole: 0.080 ±0.002 (2.03 ±0.05) Case E1, Rev F, 2013.11.15 Please refer to the numerical dimensions for accuracy. Figure 33: Case E1— Single and Dual Models www.craneae.com/interpoint Page 18 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt BOTTOM VIEW CASE E2 Projection Weld 1 2 3 4 5 8 7 6 1.105 (28.07) 0.960 (24.38) 0.905 (22.99) 1.130 max. (28.70) 0.705 (17.91) Squared corner and dot on top of case indicate pin one. 0.030 dia. (0.76) 9 0.160 (4.06) 1.460 max. (37.08) 0.505 (12.83) 0.205 (5.21) 0.000 0.25 (6.35) 0.000 0.330 max (8.38) 0.000 Weight: 35 grams maximum Case dimensions in inches (mm) Tolerance ±0.005 (0.13) for three decimal places ±0.01 (0.3) for two decimal places unless otherwise specified CAUTION Heat from reflow or wave soldering may damage the device. Solder pins individually with heat application not exceeding 300°C for 10 seconds per pin. Materials Header Cold Rolled Steel/Nickel/Gold Cover Kovar/Nickel Pins #52 alloy/Gold compression glass seal. Gold plating of 50 - 150 microinches included in pin diameter Seal Hole: 0.080 ±0.002 (2.03 ±0.05) Case E2, Rev F, 2013.11.15 Please refer to the numerical dimensions for accuracy. Figure 34: Case E2 — Triple Models www.craneae.com/interpoint Page 19 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt BOTTOM VIEW CASE G1 Flanged cases: Designator "F" required in Case Option position of model number Projection Weld Squared corner and dot on top of case indicate pin one. 1.130 max. (28.70) 0.960 (24.38) 1 0.030 dia. (0.76) 0.560 (14.22) 2 3 4 2 x Dia 0.128 ±0.002 (3.25 ±0.05) 5 2 x R 0.130 (3.30) 8 0.160 (4.06) 7 6 1.590 (40.39) (1.450 (36.83)) 1.105 (28.07) 0.905 (22.99) 0.705 (17.91) 0.505 (12.83) (0.000) 0.205 (5.21) 0.140 (3.56) 0.25 (6.35) 0.000 0.330 max. (8.38) 0.000 (2.005 max (50.93)) top of header Flange thickness: 0.047 (1.19) Base Plate Detail, Edge View Weight: 30 grams maximum Case dimensions in inches (mm) Tolerance ±0.005 (0.13) for three decimal places ±0.01 (0.3) for two decimal places unless otherwise specified CAUTION Heat from reflow or wave soldering may damage the device. Solder pins individually with heat application not exceeding 300°C for 10 seconds per pin. Materials Header Cold Rolled Steel/Nickel/Gold Cover Kovar/Nickel Pins #52 alloy/Gold compression glass seal Gold plating of 50 - 150 microinches included in pin diameter Seal Hole: 0.080 ±0.002 (2.03 ±0.05) Case G1, Rev G, 2014.09.11 Please refer to the numerical dimensions for accuracy. Figure 35: Case G1 — Single and Dual Models www.craneae.com/interpoint Page 20 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt BOTTOM VIEW CASE G2 Flanged cases: Designator "F" required in Case Option position of model number Projection Weld Squared corner and dot on top of case indicate pin one. 1.130 max. (28.70) 0.960 (24.38) 1 2 3 4 2 x Dia 0.128 ±0.002 (3.25 ±0.05) 5 2 x R 0.130 (3.30) 8 7 6 1.105 (28.07) 9 0.160 (4.06) 0.905 (22.99) 0.560 (14.22) 0.705 (17.91) 0.030 dia. (0.76) 1.590 (40.39) (1.450 (36.83)) 0.505 (12.83) (0.000) 0.205 (5.21) 0.140 (3.56) 0.25 (6.35) 0.000 0.330 max. (8.38) 0.000 (2.005 max (50.93)) top of header Flange thickness: 0.047 (1.19) Base Plate Detail, Edge View Weight: 35 grams maximum Case dimensions in inches (mm) Tolerance ±0.005 (0.13) for three decimal places ±0.01 (0.3) for two decimal places unless otherwise specified CAUTION Heat from reflow or wave soldering may damage the device. Solder pins individually with heat application not exceeding 300°C for 10 seconds per pin. Materials Header Cold Rolled Steel/Nickel/Gold Cover Kovar/Nickel Pins #52 alloy/Gold compression glass seal. Gold plating of 50 - 150 microinches included in pin diameter Seal Hole: 0.080 ±0.002 (2.03 ±0.05) Case G2, Rev F, 2014.09.11 Please refer to the numerical dimensions for accuracy. Figure 36: Case G2 — Triple Models www.craneae.com/interpoint Page 21 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Table is for reference only. See individual Series' datasheets for specific screening. Standard, /eS (nOn-QMl) and /883 (claSS H, QMl) Mil-prF-38534 eleMent eValuatiOn cOMpOnent-leVel teSt perFOrMed nOn-QMl 1 QMl Standard and /eS claSS H /883 M/S 2 M/S 2 p3 n n n Visual n n Internal Visual n Final electrical n n Wire Bond evaluation n n element electrical notes 1. Standard and /eS non-QMl products may not meet all of the requirements of MIl-pRF-38534. 2. M/S = Active components (microcircuit and semiconductor die) 3. p = passive components, Class H element evaluation. not applicable to standard and /eS element evaluation. Table 12: Element Evaluation table 5: eleMent evaluation–high reliability stanDarD, /es anD /883 (Class h) www.craneae.com/interpoint Page 22 of 23 MHF+ Rev AB - 2014.10.02 Crane Aerospace & Electronics Power Solutions MHF+ Single, Dual and Triple DC-DC Converters 28 Volt input – 15 Watt Table is for reference only. See individual Series' datasheets for specific screening. Standard, /eS (nOn-QMl) and /883 (claSS H, QMl) Mil-prF-38534 enVirOnMental Screening nOn-QMl 1 teSt perFOrMed Pre-cap Inspection, method 2017, 2032 QMl 2 Standard /eS claSS H /883 n n n Temperature Cycle (10 times) Method 1010, Cond. C, -65°C to +150°C, ambient n Method 1010, Cond. B, -55°C to +125°C, ambient n Constant acceleration Method 2001, 3000 g n Method 2001, 500 g n n3 PIND, Test method 2020, Cond. a n3 burn-in method 1015, +125°C case, typical 4 96 hours n 160 hours n Final Electrical Test, mIl-PRF-38534, group a, Subgroups 1 through 6, -55°C, +25°C, +125°C case Subgroups 1 and 4, +25°C case n n n Hermeticity Test gross leak, Method 1014, Cond. C n n Fine leak, Method 1014, Cond. a n n n n gross leak, dip n Final visual inspection, method 2009 n Test methods are referenced to Mil-STd-883 as determined by Mil-PrF-38534. notes 1. Standard and /eS, non-QMl products, may not meet all of the requirements of MIl-pRF-38534. 2. All processes are QMl qualified and performed by certified operators. 3. not required by dla but performed to assure product quality. 4. Burn-in temperature designed to bring the case temperature to +125°C minimum. Burn-in is a powered test. Table 13:–h Environmental Screening table 6: environMental sCreening igh reliability stanDarD, /es anD /883 (Class h) MHF+ Single, Dual and Triple. MHF+ Rev AB - 2014.10.02 This revision supersedes all previous releases. All technical information is believed to be accurate, but no responsibility is assumed for errors or omissions. Crane Electronics, Inc. reserves the right to make changes in products or specifications without notice. Interpoint is a registered trademark of Crane Co. MHF+ Series is a trademark of Crane Electronics, Inc. Copyright © 1999 - 2014 Crane Electronics, Inc. All rights reserved. www.craneae.com/interpoint. Page 23 of 23