RP10-E Series

  • 2:1 input voltage range
  • 1.6kVDC isolation
  • UL certified
  • Efficiency up to 87%
  • Fixed operation frequency
  • Six-sided continuous shield

The RP10-E series DC/DC converters are certified to UL 60950-1 and cUL 60950-1. This makes them ideal for all telecom and industrial applications where approved safety standards are required. The industry standard 2” x 1” package meets military standards for thermal shock and vibration tolerance and is available with an optional remote on/off control pin. This series is also available with the /M1 and /M2 option which is particularly suitable for extended temperature range applications.

Vin (V)
  • Min
  • Nom
  • Max
  • Main Vout (V)
  • Min
  • Nom
  • Max
  • Nr. of Outputs
    Iout 1 (mA)
  • Min
  • Nom
  • Max
  • Iout 2 (mA)
  • Min
  • Nom
  • Max
  • Length (mm)
  • Min
  • Max
  • Height (mm)
  • Min
  • Max
  • MIN Operating Temp (°C)
  • Max
  •   Part Number Power (W) Isolation Vin (V) Main Vout (V) Package Style
    1 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    2 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE-HC
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    3 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/M1
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    4 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/M1-HC
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    5 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/N
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    6 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/N-HC
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    7 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/N/M1
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    8 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/N/M1-HC
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    9 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/P
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    10 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/P-HC
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    11 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/P/M1
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    12 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/P/M1-HC
    10.0 Isolated 9.0 - 18.0 ± 5 2"x1"
    13 DC/DC, 10.0 W, Single Output, THT RP10-1205SE
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    14 DC/DC, 10.0 W, Single Output, THT RP10-1205SE-HC
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    15 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/M1
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    16 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/M1-HC
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    17 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/N
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    18 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/N-HC
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    19 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/N/M1
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    20 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/N/M1-HC
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    21 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/P
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    22 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/P-HC
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    23 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/P/M1
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    24 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/P/M1-HC
    10.0 Isolated 9.0 - 18.0 5 2"x1"
    25 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    26 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE-HC
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    27 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/M1
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    28 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/M1-HC
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    29 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/N
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    30 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/N-HC
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    31 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/N/M1
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    32 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/N/M1-HC
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    33 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/P
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    34 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/P-HC
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    35 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/P/M1
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    36 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/P/M1-HC
    10.0 Isolated 9.0 - 18.0 ± 12 2"x1"
    37 DC/DC, 10.0 W, Single Output, THT RP10-1212SE
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    38 DC/DC, 10.0 W, Single Output, THT RP10-1212SE-HC
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    39 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/M1
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    40 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/M1-HC
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    41 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/N
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    42 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/N-HC
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    43 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/N/M1
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    44 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/N/M1-HC
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    45 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/P
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    46 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/P-HC
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    47 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/P/M1
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    48 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/P/M1-HC
    10.0 Isolated 9.0 - 18.0 12 2"x1"
    49 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    50 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE-HC
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    51 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/M1
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    52 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/M1-HC
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    53 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/N
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    54 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/N-HC
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    55 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/N/M1
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    56 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/N/M1-HC
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    57 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/P
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    58 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/P-HC
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    59 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/P/M1
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    60 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/P/M1-HC
    10.0 Isolated 9.0 - 18.0 ± 15 2"x1"
    61 DC/DC, 10.0 W, Single Output, THT RP10-1215SE
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    62 DC/DC, 10.0 W, Single Output, THT RP10-1215SE-HC
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    63 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/M1
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    64 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/M1-HC
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    65 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/N
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    66 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/N-HC
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    67 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/N/M1
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    68 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/N/M1-HC
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    69 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/P
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    70 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/P-HC
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    71 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/P/M1
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    72 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/P/M1-HC
    10.0 Isolated 9.0 - 18.0 15 2"x1"
    73 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    74 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE-HC
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    75 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/M1
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    76 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/M1-HC
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    77 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/N
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    78 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/N-HC
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    79 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/N/M1
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    80 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/N/M1-HC
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    81 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/P
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    82 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/P-HC
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    83 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/P/M1
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    84 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/P/M1-HC
    10.0 Isolated 9.0 - 18.0 3.3 2"x1"
    85 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    86 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE-HC
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    87 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/M1
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    88 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/M1-HC
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    89 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/N
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    90 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/N-HC
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    91 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/N/M1
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    92 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/N/M1-HC
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    93 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/P
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    94 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/P-HC
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    95 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/P/M1
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    96 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/P/M1-HC
    10.0 Isolated 18.0 - 36.0 ± 5 2"x1"
    97 DC/DC, 10.0 W, Single Output, THT RP10-2405SE
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    98 DC/DC, 10.0 W, Single Output, THT RP10-2405SE-HC
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    99 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/M1
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    100 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/M1-HC
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    101 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/N
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    102 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/N-HC
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    103 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/N/M1
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    104 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/N/M1-HC
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    105 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/P
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    106 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/P-HC
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    107 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/P/M1
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    108 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/P/M1-HC
    10.0 Isolated 18.0 - 36.0 5 2"x1"
    109 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    110 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE-HC
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    111 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/M1
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    112 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/M1-HC
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    113 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/N
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    114 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/N-HC
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    115 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/N/M1
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    116 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/N/M1-HC
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    117 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/P
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    118 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/P-HC
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    119 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/P/M1
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    120 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/P/M1-HC
    10.0 Isolated 18.0 - 36.0 ± 12 2"x1"
    121 DC/DC, 10.0 W, Single Output, THT RP10-2412SE
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    122 DC/DC, 10.0 W, Single Output, THT RP10-2412SE-HC
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    123 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/M1
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    124 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/M1-HC
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    125 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/N
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    126 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/N-HC
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    127 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/N/M1
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    128 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/N/M1-HC
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    129 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/P
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    130 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/P-HC
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    131 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/P/M1
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    132 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/P/M1-HC
    10.0 Isolated 18.0 - 36.0 12 2"x1"
    133 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    134 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE-HC
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    135 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/M1
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    136 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/M1-HC
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    137 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/N
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    138 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/N-HC
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    139 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/N/M1
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    140 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/N/M1-HC
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    141 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/P
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    142 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/P-HC
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    143 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/P/M1
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    144 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/P/M1-HC
    10.0 Isolated 18.0 - 36.0 ± 15 2"x1"
    145 DC/DC, 10.0 W, Single Output, THT RP10-2415SE
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    146 DC/DC, 10.0 W, Single Output, THT RP10-2415SE-HC
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    147 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/M1
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    148 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/M1-HC
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    149 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/N
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    150 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/N-HC
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    151 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/N/M1
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    152 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/N/M1-HC
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    153 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/P
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    154 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/P-HC
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    155 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/P/M1
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    156 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/P/M1-HC
    10.0 Isolated 18.0 - 36.0 15 2"x1"
    157 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    158 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE-HC
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    159 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/M1
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    160 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/M1-HC
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    161 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/N
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    162 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/N-HC
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    163 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/N/M1
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    164 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/N/M1-HC
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    165 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/P
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    166 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/P-HC
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    167 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/P/M1
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    168 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/P/M1-HC
    10.0 Isolated 18.0 - 36.0 3.3 2"x1"
    169 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    170 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE-HC
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    171 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/M1
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    172 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/M1-HC
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    173 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/N
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    174 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/N-HC
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    175 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/N/M1
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    176 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/N/M1-HC
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    177 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/P
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    178 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/P-HC
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    179 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/P/M1
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    180 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/P/M1-HC
    10.0 Isolated 36.0 - 75.0 ± 5 2"x1"
    181 DC/DC, 10.0 W, Single Output, THT RP10-4805SE
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    182 DC/DC, 10.0 W, Single Output, THT RP10-4805SE-HC
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    183 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/M1
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    184 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/M1-HC
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    185 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/N
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    186 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/N-HC
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    187 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/N/M1
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    188 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/N/M1-HC
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    189 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/P
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    190 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/P-HC
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    191 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/P/M1
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    192 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/P/M1-HC
    10.0 Isolated 36.0 - 75.0 5 2"x1"
    193 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    194 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE-HC
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    195 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/M1
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    196 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/M1-HC
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    197 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/N
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    198 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/N-HC
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    199 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/N/M1
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    200 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/N/M1-HC
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    201 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/P
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    202 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/P-HC
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    203 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/P/M1
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    204 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/P/M1-HC
    10.0 Isolated 36.0 - 75.0 ± 12 2"x1"
    205 DC/DC, 10.0 W, Single Output, THT RP10-4812SE
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    206 DC/DC, 10.0 W, Single Output, THT RP10-4812SE-HC
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    207 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/M1
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    208 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/M1-HC
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    209 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/N
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    210 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/N-HC
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    211 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/N/M1
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    212 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/N/M1-HC
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    213 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/P
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    214 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/P-HC
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    215 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/P/M1
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    216 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/P/M1-HC
    10.0 Isolated 36.0 - 75.0 12 2"x1"
    217 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    218 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE-HC
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    219 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/M1
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    220 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/M1-HC
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    221 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/N
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    222 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/N-HC
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    223 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/N/M1
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    224 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/N/M1-HC
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    225 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/P
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    226 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/P-HC
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    227 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/P/M1
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    228 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/P/M1-HC
    10.0 Isolated 36.0 - 75.0 ± 15 2"x1"
    229 DC/DC, 10.0 W, Single Output, THT RP10-4815SE
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    230 DC/DC, 10.0 W, Single Output, THT RP10-4815SE-HC
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    231 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/M1
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    232 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/M1-HC
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    233 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/N
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    234 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/N-HC
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    235 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/N/M1
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    236 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/N/M1-HC
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    237 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/P
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    238 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/P-HC
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    239 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/P/M1
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    240 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/P/M1-HC
    10.0 Isolated 36.0 - 75.0 15 2"x1"
    241 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE
    10.0 Isolated 36.0 - 75.0 3.3 2"x1"
    242 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE-HC
    10.0 Isolated 36.0 - 75.0 3.3 2"x1"
    243 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/M1
    10.0 Isolated 36.0 - 75.0 3.3 2"x1"
    244 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/M1-HC
    10.0 Isolated 36.0 - 75.0 3.3 2"x1"
    245 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/N
    10.0 Isolated 36.0 - 75.0 3.3 2"x1"
    246 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/N-HC
    10.0 Isolated 36.0 - 75.0 3.3 2"x1"
    247 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/N/M1
    10.0 Isolated 36.0 - 75.0 3.3 2"x1"
    248 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/N/M1-HC
    10.0 Isolated 36.0 - 75.0 3.3 2"x1"
    249 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/P
    10.0 Isolated 36.0 - 75.0 3.3 2"x1"
    250 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/P-HC
    10.0 Isolated 36.0 - 75.0 3.3 2"x1"
    Attributes RP10-E
    AC/DC or DC/DC DC/DC
    Power (W) 10.0
    Isolation Isolated
    Isolation (kV) 1.6
    Mounting Type THT
    Package Style 2"x1"
    Width (mm) 25.4
    Certifications UL 60950-1
    MAX Operating Temp (°C) 100.0
    Protections OLP, OVP, SCP
    Directives REACH, RoHS 2+ (10/10)
    Warranty 3 Years
    Regulation Regulated
      Part Number Power (W) Vout 1 (V) Vin (V) Mounting Type
    1 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE
    10.0 5.0 9.0 - 18.0 THT
    2 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE-HC
    10.0 5.0 9.0 - 18.0 THT
    3 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/M1
    10.0 5.0 9.0 - 18.0 THT
    4 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/M1-HC
    10.0 5.0 9.0 - 18.0 THT
    5 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/N
    10.0 5.0 9.0 - 18.0 THT
    6 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/N-HC
    10.0 5.0 9.0 - 18.0 THT
    7 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/N/M1
    10.0 5.0 9.0 - 18.0 THT
    8 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/N/M1-HC
    10.0 5.0 9.0 - 18.0 THT
    9 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/P
    10.0 5.0 9.0 - 18.0 THT
    10 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/P-HC
    10.0 5.0 9.0 - 18.0 THT
    11 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/P/M1
    10.0 5.0 9.0 - 18.0 THT
    12 DC/DC, 10.0 W, Dual Output, THT RP10-1205DE/P/M1-HC
    10.0 5.0 9.0 - 18.0 THT
    13 DC/DC, 10.0 W, Single Output, THT RP10-1205SE
    10.0 5.0 9.0 - 18.0 THT
    14 DC/DC, 10.0 W, Single Output, THT RP10-1205SE-HC
    10.0 5.0 9.0 - 18.0 THT
    15 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/M1
    10.0 5.0 9.0 - 18.0 THT
    16 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/M1-HC
    10.0 5.0 9.0 - 18.0 THT
    17 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/N
    10.0 5.0 9.0 - 18.0 THT
    18 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/N-HC
    10.0 5.0 9.0 - 18.0 THT
    19 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/N/M1
    10.0 5.0 9.0 - 18.0 THT
    20 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/N/M1-HC
    10.0 5.0 9.0 - 18.0 THT
    21 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/P
    10.0 5.0 9.0 - 18.0 THT
    22 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/P-HC
    10.0 5.0 9.0 - 18.0 THT
    23 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/P/M1
    10.0 5.0 9.0 - 18.0 THT
    24 DC/DC, 10.0 W, Single Output, THT RP10-1205SE/P/M1-HC
    10.0 5.0 9.0 - 18.0 THT
    25 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE
    10.0 12.0 9.0 - 18.0 THT
    26 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE-HC
    10.0 12.0 9.0 - 18.0 THT
    27 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/M1
    10.0 12.0 9.0 - 18.0 THT
    28 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/M1-HC
    10.0 12.0 9.0 - 18.0 THT
    29 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/N
    10.0 12.0 9.0 - 18.0 THT
    30 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/N-HC
    10.0 12.0 9.0 - 18.0 THT
    31 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/N/M1
    10.0 12.0 9.0 - 18.0 THT
    32 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/N/M1-HC
    10.0 12.0 9.0 - 18.0 THT
    33 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/P
    10.0 12.0 9.0 - 18.0 THT
    34 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/P-HC
    10.0 12.0 9.0 - 18.0 THT
    35 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/P/M1
    10.0 12.0 9.0 - 18.0 THT
    36 DC/DC, 10.0 W, Dual Output, THT RP10-1212DE/P/M1-HC
    10.0 12.0 9.0 - 18.0 THT
    37 DC/DC, 10.0 W, Single Output, THT RP10-1212SE
    10.0 12.0 9.0 - 18.0 THT
    38 DC/DC, 10.0 W, Single Output, THT RP10-1212SE-HC
    10.0 12.0 9.0 - 18.0 THT
    39 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/M1
    10.0 12.0 9.0 - 18.0 THT
    40 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/M1-HC
    10.0 12.0 9.0 - 18.0 THT
    41 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/N
    10.0 12.0 9.0 - 18.0 THT
    42 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/N-HC
    10.0 12.0 9.0 - 18.0 THT
    43 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/N/M1
    10.0 12.0 9.0 - 18.0 THT
    44 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/N/M1-HC
    10.0 12.0 9.0 - 18.0 THT
    45 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/P
    10.0 12.0 9.0 - 18.0 THT
    46 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/P-HC
    10.0 12.0 9.0 - 18.0 THT
    47 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/P/M1
    10.0 12.0 9.0 - 18.0 THT
    48 DC/DC, 10.0 W, Single Output, THT RP10-1212SE/P/M1-HC
    10.0 12.0 9.0 - 18.0 THT
    49 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE
    10.0 15.0 9.0 - 18.0 THT
    50 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE-HC
    10.0 15.0 9.0 - 18.0 THT
    51 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/M1
    10.0 15.0 9.0 - 18.0 THT
    52 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/M1-HC
    10.0 15.0 9.0 - 18.0 THT
    53 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/N
    10.0 15.0 9.0 - 18.0 THT
    54 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/N-HC
    10.0 15.0 9.0 - 18.0 THT
    55 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/N/M1
    10.0 15.0 9.0 - 18.0 THT
    56 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/N/M1-HC
    10.0 15.0 9.0 - 18.0 THT
    57 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/P
    10.0 15.0 9.0 - 18.0 THT
    58 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/P-HC
    10.0 15.0 9.0 - 18.0 THT
    59 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/P/M1
    10.0 15.0 9.0 - 18.0 THT
    60 DC/DC, 10.0 W, Dual Output, THT RP10-1215DE/P/M1-HC
    10.0 15.0 9.0 - 18.0 THT
    61 DC/DC, 10.0 W, Single Output, THT RP10-1215SE
    10.0 15.0 9.0 - 18.0 THT
    62 DC/DC, 10.0 W, Single Output, THT RP10-1215SE-HC
    10.0 15.0 9.0 - 18.0 THT
    63 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/M1
    10.0 15.0 9.0 - 18.0 THT
    64 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/M1-HC
    10.0 15.0 9.0 - 18.0 THT
    65 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/N
    10.0 15.0 9.0 - 18.0 THT
    66 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/N-HC
    10.0 15.0 9.0 - 18.0 THT
    67 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/N/M1
    10.0 15.0 9.0 - 18.0 THT
    68 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/N/M1-HC
    10.0 15.0 9.0 - 18.0 THT
    69 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/P
    10.0 15.0 9.0 - 18.0 THT
    70 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/P-HC
    10.0 15.0 9.0 - 18.0 THT
    71 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/P/M1
    10.0 15.0 9.0 - 18.0 THT
    72 DC/DC, 10.0 W, Single Output, THT RP10-1215SE/P/M1-HC
    10.0 15.0 9.0 - 18.0 THT
    73 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE
    10.0 3.3 9.0 - 18.0 THT
    74 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE-HC
    10.0 3.3 9.0 - 18.0 THT
    75 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/M1
    10.0 3.3 9.0 - 18.0 THT
    76 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/M1-HC
    10.0 3.3 9.0 - 18.0 THT
    77 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/N
    10.0 3.3 9.0 - 18.0 THT
    78 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/N-HC
    10.0 3.3 9.0 - 18.0 THT
    79 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/N/M1
    10.0 3.3 9.0 - 18.0 THT
    80 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/N/M1-HC
    10.0 3.3 9.0 - 18.0 THT
    81 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/P
    10.0 3.3 9.0 - 18.0 THT
    82 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/P-HC
    10.0 3.3 9.0 - 18.0 THT
    83 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/P/M1
    10.0 3.3 9.0 - 18.0 THT
    84 DC/DC, 10.0 W, Single Output, THT RP10-123.3SE/P/M1-HC
    10.0 3.3 9.0 - 18.0 THT
    85 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE
    10.0 5.0 18.0 - 36.0 THT
    86 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE-HC
    10.0 5.0 18.0 - 36.0 THT
    87 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/M1
    10.0 5.0 18.0 - 36.0 THT
    88 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/M1-HC
    10.0 5.0 18.0 - 36.0 THT
    89 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/N
    10.0 5.0 18.0 - 36.0 THT
    90 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/N-HC
    10.0 5.0 18.0 - 36.0 THT
    91 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/N/M1
    10.0 5.0 18.0 - 36.0 THT
    92 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/N/M1-HC
    10.0 5.0 18.0 - 36.0 THT
    93 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/P
    10.0 5.0 18.0 - 36.0 THT
    94 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/P-HC
    10.0 5.0 18.0 - 36.0 THT
    95 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/P/M1
    10.0 5.0 18.0 - 36.0 THT
    96 DC/DC, 10.0 W, Dual Output, THT RP10-2405DE/P/M1-HC
    10.0 5.0 18.0 - 36.0 THT
    97 DC/DC, 10.0 W, Single Output, THT RP10-2405SE
    10.0 5.0 18.0 - 36.0 THT
    98 DC/DC, 10.0 W, Single Output, THT RP10-2405SE-HC
    10.0 5.0 18.0 - 36.0 THT
    99 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/M1
    10.0 5.0 18.0 - 36.0 THT
    100 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/M1-HC
    10.0 5.0 18.0 - 36.0 THT
    101 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/N
    10.0 5.0 18.0 - 36.0 THT
    102 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/N-HC
    10.0 5.0 18.0 - 36.0 THT
    103 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/N/M1
    10.0 5.0 18.0 - 36.0 THT
    104 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/N/M1-HC
    10.0 5.0 18.0 - 36.0 THT
    105 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/P
    10.0 5.0 18.0 - 36.0 THT
    106 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/P-HC
    10.0 5.0 18.0 - 36.0 THT
    107 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/P/M1
    10.0 5.0 18.0 - 36.0 THT
    108 DC/DC, 10.0 W, Single Output, THT RP10-2405SE/P/M1-HC
    10.0 5.0 18.0 - 36.0 THT
    109 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE
    10.0 12.0 18.0 - 36.0 THT
    110 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE-HC
    10.0 12.0 18.0 - 36.0 THT
    111 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/M1
    10.0 12.0 18.0 - 36.0 THT
    112 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/M1-HC
    10.0 12.0 18.0 - 36.0 THT
    113 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/N
    10.0 12.0 18.0 - 36.0 THT
    114 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/N-HC
    10.0 12.0 18.0 - 36.0 THT
    115 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/N/M1
    10.0 12.0 18.0 - 36.0 THT
    116 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/N/M1-HC
    10.0 12.0 18.0 - 36.0 THT
    117 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/P
    10.0 12.0 18.0 - 36.0 THT
    118 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/P-HC
    10.0 12.0 18.0 - 36.0 THT
    119 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/P/M1
    10.0 12.0 18.0 - 36.0 THT
    120 DC/DC, 10.0 W, Dual Output, THT RP10-2412DE/P/M1-HC
    10.0 12.0 18.0 - 36.0 THT
    121 DC/DC, 10.0 W, Single Output, THT RP10-2412SE
    10.0 12.0 18.0 - 36.0 THT
    122 DC/DC, 10.0 W, Single Output, THT RP10-2412SE-HC
    10.0 12.0 18.0 - 36.0 THT
    123 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/M1
    10.0 12.0 18.0 - 36.0 THT
    124 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/M1-HC
    10.0 12.0 18.0 - 36.0 THT
    125 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/N
    10.0 12.0 18.0 - 36.0 THT
    126 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/N-HC
    10.0 12.0 18.0 - 36.0 THT
    127 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/N/M1
    10.0 12.0 18.0 - 36.0 THT
    128 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/N/M1-HC
    10.0 12.0 18.0 - 36.0 THT
    129 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/P
    10.0 12.0 18.0 - 36.0 THT
    130 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/P-HC
    10.0 12.0 18.0 - 36.0 THT
    131 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/P/M1
    10.0 12.0 18.0 - 36.0 THT
    132 DC/DC, 10.0 W, Single Output, THT RP10-2412SE/P/M1-HC
    10.0 12.0 18.0 - 36.0 THT
    133 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE
    10.0 15.0 18.0 - 36.0 THT
    134 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE-HC
    10.0 15.0 18.0 - 36.0 THT
    135 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/M1
    10.0 15.0 18.0 - 36.0 THT
    136 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/M1-HC
    10.0 15.0 18.0 - 36.0 THT
    137 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/N
    10.0 15.0 18.0 - 36.0 THT
    138 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/N-HC
    10.0 15.0 18.0 - 36.0 THT
    139 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/N/M1
    10.0 15.0 18.0 - 36.0 THT
    140 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/N/M1-HC
    10.0 15.0 18.0 - 36.0 THT
    141 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/P
    10.0 15.0 18.0 - 36.0 THT
    142 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/P-HC
    10.0 15.0 18.0 - 36.0 THT
    143 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/P/M1
    10.0 15.0 18.0 - 36.0 THT
    144 DC/DC, 10.0 W, Dual Output, THT RP10-2415DE/P/M1-HC
    10.0 15.0 18.0 - 36.0 THT
    145 DC/DC, 10.0 W, Single Output, THT RP10-2415SE
    10.0 15.0 18.0 - 36.0 THT
    146 DC/DC, 10.0 W, Single Output, THT RP10-2415SE-HC
    10.0 15.0 18.0 - 36.0 THT
    147 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/M1
    10.0 15.0 18.0 - 36.0 THT
    148 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/M1-HC
    10.0 15.0 18.0 - 36.0 THT
    149 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/N
    10.0 15.0 18.0 - 36.0 THT
    150 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/N-HC
    10.0 15.0 18.0 - 36.0 THT
    151 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/N/M1
    10.0 15.0 18.0 - 36.0 THT
    152 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/N/M1-HC
    10.0 15.0 18.0 - 36.0 THT
    153 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/P
    10.0 15.0 18.0 - 36.0 THT
    154 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/P-HC
    10.0 15.0 18.0 - 36.0 THT
    155 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/P/M1
    10.0 15.0 18.0 - 36.0 THT
    156 DC/DC, 10.0 W, Single Output, THT RP10-2415SE/P/M1-HC
    10.0 15.0 18.0 - 36.0 THT
    157 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE
    10.0 3.3 18.0 - 36.0 THT
    158 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE-HC
    10.0 3.3 18.0 - 36.0 THT
    159 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/M1
    10.0 3.3 18.0 - 36.0 THT
    160 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/M1-HC
    10.0 3.3 18.0 - 36.0 THT
    161 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/N
    10.0 3.3 18.0 - 36.0 THT
    162 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/N-HC
    10.0 3.3 18.0 - 36.0 THT
    163 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/N/M1
    10.0 3.3 18.0 - 36.0 THT
    164 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/N/M1-HC
    10.0 3.3 18.0 - 36.0 THT
    165 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/P
    10.0 3.3 18.0 - 36.0 THT
    166 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/P-HC
    10.0 3.3 18.0 - 36.0 THT
    167 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/P/M1
    10.0 3.3 18.0 - 36.0 THT
    168 DC/DC, 10.0 W, Single Output, THT RP10-243.3SE/P/M1-HC
    10.0 3.3 18.0 - 36.0 THT
    169 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE
    10.0 5.0 36.0 - 75.0 THT
    170 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE-HC
    10.0 5.0 36.0 - 75.0 THT
    171 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/M1
    10.0 5.0 36.0 - 75.0 THT
    172 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/M1-HC
    10.0 5.0 36.0 - 75.0 THT
    173 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/N
    10.0 5.0 36.0 - 75.0 THT
    174 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/N-HC
    10.0 5.0 36.0 - 75.0 THT
    175 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/N/M1
    10.0 5.0 36.0 - 75.0 THT
    176 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/N/M1-HC
    10.0 5.0 36.0 - 75.0 THT
    177 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/P
    10.0 5.0 36.0 - 75.0 THT
    178 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/P-HC
    10.0 5.0 36.0 - 75.0 THT
    179 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/P/M1
    10.0 5.0 36.0 - 75.0 THT
    180 DC/DC, 10.0 W, Dual Output, THT RP10-4805DE/P/M1-HC
    10.0 5.0 36.0 - 75.0 THT
    181 DC/DC, 10.0 W, Single Output, THT RP10-4805SE
    10.0 5.0 36.0 - 75.0 THT
    182 DC/DC, 10.0 W, Single Output, THT RP10-4805SE-HC
    10.0 5.0 36.0 - 75.0 THT
    183 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/M1
    10.0 5.0 36.0 - 75.0 THT
    184 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/M1-HC
    10.0 5.0 36.0 - 75.0 THT
    185 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/N
    10.0 5.0 36.0 - 75.0 THT
    186 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/N-HC
    10.0 5.0 36.0 - 75.0 THT
    187 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/N/M1
    10.0 5.0 36.0 - 75.0 THT
    188 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/N/M1-HC
    10.0 5.0 36.0 - 75.0 THT
    189 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/P
    10.0 5.0 36.0 - 75.0 THT
    190 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/P-HC
    10.0 5.0 36.0 - 75.0 THT
    191 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/P/M1
    10.0 5.0 36.0 - 75.0 THT
    192 DC/DC, 10.0 W, Single Output, THT RP10-4805SE/P/M1-HC
    10.0 5.0 36.0 - 75.0 THT
    193 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE
    10.0 12.0 36.0 - 75.0 THT
    194 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE-HC
    10.0 12.0 36.0 - 75.0 THT
    195 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/M1
    10.0 12.0 36.0 - 75.0 THT
    196 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/M1-HC
    10.0 12.0 36.0 - 75.0 THT
    197 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/N
    10.0 12.0 36.0 - 75.0 THT
    198 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/N-HC
    10.0 12.0 36.0 - 75.0 THT
    199 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/N/M1
    10.0 12.0 36.0 - 75.0 THT
    200 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/N/M1-HC
    10.0 12.0 36.0 - 75.0 THT
    201 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/P
    10.0 12.0 36.0 - 75.0 THT
    202 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/P-HC
    10.0 12.0 36.0 - 75.0 THT
    203 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/P/M1
    10.0 12.0 36.0 - 75.0 THT
    204 DC/DC, 10.0 W, Dual Output, THT RP10-4812DE/P/M1-HC
    10.0 12.0 36.0 - 75.0 THT
    205 DC/DC, 10.0 W, Single Output, THT RP10-4812SE
    10.0 12.0 36.0 - 75.0 THT
    206 DC/DC, 10.0 W, Single Output, THT RP10-4812SE-HC
    10.0 12.0 36.0 - 75.0 THT
    207 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/M1
    10.0 12.0 36.0 - 75.0 THT
    208 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/M1-HC
    10.0 12.0 36.0 - 75.0 THT
    209 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/N
    10.0 12.0 36.0 - 75.0 THT
    210 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/N-HC
    10.0 12.0 36.0 - 75.0 THT
    211 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/N/M1
    10.0 12.0 36.0 - 75.0 THT
    212 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/N/M1-HC
    10.0 12.0 36.0 - 75.0 THT
    213 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/P
    10.0 12.0 36.0 - 75.0 THT
    214 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/P-HC
    10.0 12.0 36.0 - 75.0 THT
    215 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/P/M1
    10.0 12.0 36.0 - 75.0 THT
    216 DC/DC, 10.0 W, Single Output, THT RP10-4812SE/P/M1-HC
    10.0 12.0 36.0 - 75.0 THT
    217 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE
    10.0 15.0 36.0 - 75.0 THT
    218 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE-HC
    10.0 15.0 36.0 - 75.0 THT
    219 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/M1
    10.0 15.0 36.0 - 75.0 THT
    220 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/M1-HC
    10.0 15.0 36.0 - 75.0 THT
    221 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/N
    10.0 15.0 36.0 - 75.0 THT
    222 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/N-HC
    10.0 15.0 36.0 - 75.0 THT
    223 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/N/M1
    10.0 15.0 36.0 - 75.0 THT
    224 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/N/M1-HC
    10.0 15.0 36.0 - 75.0 THT
    225 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/P
    10.0 15.0 36.0 - 75.0 THT
    226 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/P-HC
    10.0 15.0 36.0 - 75.0 THT
    227 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/P/M1
    10.0 15.0 36.0 - 75.0 THT
    228 DC/DC, 10.0 W, Dual Output, THT RP10-4815DE/P/M1-HC
    10.0 15.0 36.0 - 75.0 THT
    229 DC/DC, 10.0 W, Single Output, THT RP10-4815SE
    10.0 15.0 36.0 - 75.0 THT
    230 DC/DC, 10.0 W, Single Output, THT RP10-4815SE-HC
    10.0 15.0 36.0 - 75.0 THT
    231 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/M1
    10.0 15.0 36.0 - 75.0 THT
    232 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/M1-HC
    10.0 15.0 36.0 - 75.0 THT
    233 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/N
    10.0 15.0 36.0 - 75.0 THT
    234 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/N-HC
    10.0 15.0 36.0 - 75.0 THT
    235 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/N/M1
    10.0 15.0 36.0 - 75.0 THT
    236 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/N/M1-HC
    10.0 15.0 36.0 - 75.0 THT
    237 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/P
    10.0 15.0 36.0 - 75.0 THT
    238 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/P-HC
    10.0 15.0 36.0 - 75.0 THT
    239 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/P/M1
    10.0 15.0 36.0 - 75.0 THT
    240 DC/DC, 10.0 W, Single Output, THT RP10-4815SE/P/M1-HC
    10.0 15.0 36.0 - 75.0 THT
    241 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE
    10.0 3.3 36.0 - 75.0 THT
    242 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE-HC
    10.0 3.3 36.0 - 75.0 THT
    243 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/M1
    10.0 3.3 36.0 - 75.0 THT
    244 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/M1-HC
    10.0 3.3 36.0 - 75.0 THT
    245 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/N
    10.0 3.3 36.0 - 75.0 THT
    246 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/N-HC
    10.0 3.3 36.0 - 75.0 THT
    247 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/N/M1
    10.0 3.3 36.0 - 75.0 THT
    248 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/N/M1-HC
    10.0 3.3 36.0 - 75.0 THT
    249 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/P
    10.0 3.3 36.0 - 75.0 THT
    250 DC/DC, 10.0 W, Single Output, THT RP10-483.3SE/P-HC
    10.0 3.3 36.0 - 75.0 THT

    서류

    표제 Type 날짜
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    The main output options are:

    Single output, with Vout+ and Vout- pins. This is the most commonly used option.
    Dual (bipolar) output, with Vout+, Com and Vout- pins, e.g. +/-15V. Useful for generating bipolar supply rails from a single input voltage rail, e.g, to supply an op-amp.
    Dual (asymmetric) output , with Vout+, Com and Vout- pins, e.g. +18/-9V. Useful for IGBT gate driver applications which uses asymmetric supply voltages.
    Dual (independent) output, with Vout1+, Vout1- and Vout2+, Vout2-, where the outputs are isolated both from the input and from each other. Useful for supplying a two-channel application using only one converter.
    Triple output, with a main Vout+ and Aux+, Com and Aux- pins, e.g. +5V and +/-12V. Useful for applications requiring a single high current supply and an auxiliary supply to power peripherals.
    DC/DC converters are not reverse polarity protected. They will be irreparably damaged if connected the wrong way around. If it is possible or likely that the converter could be reverse polarity connected, then a diode must be used to protect the converter (refer to the Application Notes).
    All DC/DC converters can withstand occasional short-duration over-voltage transients (<100ms), but repeated over-voltage conditions can lead to failure. Unregulated DC/DC converters can cope with longer input over-voltage conditions as long as the supply voltage does not exceed the component ratings. The output voltage will also be too high. Regulated DC/DC converters will attempt to regulate an input over-voltage condition so will be more stressed, nevertherless some converters like the REC3.5 and REC6 can withstand 60s input over-voltage conditions (refer to datasheet for limits)
    All DC/DC converters can withstand occasional short-duration brown-outs, but repeated under-voltage conditions can lead to failure. For a constant power load, the input current rises exponentially as the input voltage decreases. Unregulated DC/DC converters can cope with longer input under-voltage conditions as long as the increased input current does not exceed the component ratings. The output voltage will also be too low. Unregulated converters do not have an Under-Voltage Lock-Out (UVLO) function. Regulated DC/DC converters will attempt to regulate an input under-voltage condition so will be more stressed, some series are available with an Under-Voltage Lock-Out (UVLO) function, either as standard or as an /X1 option, which disables the converter if the input current is too high. This also stops the converter from attempting to start up too early before the supply voltage has stabilized.
    The ratio refers to the input voltage range. For example, a 24V input DC/DC converter with 1:1 input range is specified with 24Vinput +/-10% (21.6V to 26.4V). A 24V input DC/DC converter with 2:1 input range is specified over a two-to-one input voltage range of 18V-36V and a 24V input DC/DC converter with 4:1 input range is specified over a four-to-one input voltage range of 9V-36V.
    A non-isolated or switching regulator converter can efficiently reduce or boost a DC input voltage to a lower or higher output voltage.

    A switching regulator has the following advantages over an isolated DC/DC converter:

    1. As a transformer is not used and the input and output share a common ground, the efficiencies can be very high (>97%). These low losses allow a wider operating temperature and a higher power density compared with isolated converters.
    2. A switching regulator can vary the internal on/off duty cycle over a wider range to compensate for changes in load and/or input voltage, thus the converter can work efficiently over an extended input voltage range (7:1 or more) and load range (100:1).
    3: Switching regulators often uses a cycle-by-cycle controller IC, so the reaction time to dynamic load changes or short circuit conditions is very fast.
    An isolated DC/DC converter will translate a DC input voltage to the same or a different DC output voltage which is electrically isolated from the input via an internal transformer. It is commonly used for the following reasons:

    1: To break ground loops. Electrical interference on the power rails is blocked from affecting other parts of the circuit, for example, a DC/DC used in a motor controller circuit can provide a low-noise, stable output from a noisy DC supply.
    2: To change the reference point of a supply. For example to generate a +5V rail from a -48V telecoms power supply.
    3. For safety. For example in medical applications to protect the patient from power supply faults
    4: For supply security. For applications with multiple channels, isolating each channel power supply with a separate DC/DC converter means that if any channel is faulty or short-circuited, the remaining channels are unaffected.
    A DC/DC converter can have the following connections:

    The supply pins, Vin+ and Vin –
    The output pins, Vout + and Vout- (plus a common pin for +/- outputs)
    A remote control on/off, enable or control pin (usually labelled "CTRL")
    A trim pin (to adjust the output voltage up or down)
    Sense pins (to compensate for any cable or track resistance losses)
    Power OK pin (an output signal to indicate that the output voltage is stable)
    There are many reasons why you should use a DC/DC converter, but the most common applications are:

    • To match the loads to the power supply (e.g. to generate higher, lower or dual outputs from a single source, or to invert a supply rail.)
    • To isolate primary and secondary circuits (e.g. for safety reasons or to protect a sensitive circuit from interference)
    • To simplify power supplies (e.g. multiple output converters or one converter per rail (point-of-load) can reduce power supply complexity, overall cost and board space requirements while at the same time increasing flexibility, reliability and system efficiency.)
    All RECOM products are RoHS2+ compliant. You can find certificates and Declarations of Conformity on our home page.
    Although some of our DC/DC converters contain Class A or Class B EMC filters built in, many of our low cost DC/DC converters contain only simple input filters. The customer can then decide to add an EMC filter individually or for all of the converters together to save costs. External EMI filter suggestions are given in our Application Notes for both Class A and Class B levels. All of our AC/DC converters contain a built-in Class B EMC filter as standard.
    The UKCA (UK Conformity Assessed) marking is a new UK product marking that is used for products being placed on the market in Great Britain (England, Wales and Scotland). It applies to the same products that are currently CE marked. The circumstances in which self-declaration of conformity for UKCA marking can be used are the same as for CE marking. Based on current UK rules, RECOM is eligible to self-declare for the UKCA Declaration of Conformity (DoC) as long as the EU and UK regulations remain aligned.
    RECOM will make available a separate UKCA Declaration of Conformity (DoC) based on the existing CE Declaration of Conformity (DoC) and test reports (self-declaration). CE marking remains valid for goods placed on the market in Great Britain until 1 January 2023. The UKCA marking must be used for placing goods on the market in Great Britain after this date. RECOM will continue to actively monitor any changes to the UKCA rules based on UK government guidance and react accordingly.
    We will also instigate a program to successively add the UKCA mark to our CE marked products to fulfil our obligations as manufacturer. For further information or enquiries regarding our UKCA policy, contact TechSupport
    RECOM prides itself on having a comprehensive certification portfolio, with full third party UL/IEC/EN certifications (not just 'designed to meet'). Certifications cover Industrial, Medical, LED lighting, Household, Railway and Automotive standards, depending on the application area of the converter.
    We provide many medical grade converters with UL/IEC/ EN-60601-1 certifications (3rd Ed.), including risk assessment documentation.
    As with all electronic devices, strongly reactive or abrasive cleaners can attack the encapsulating material and the pins, hence cleaning is recommended with inert solutions (e.g. alcohol or water based solvents) suitable for electronic components and at the temperatures recommended by the cleanser manufacturer. Jet washing or ultrasonic cleaning is not recommended.
    Refer to the instructions given by the conformal coating supplier regarding the recommended process for washing and drying the boards before applying the conformal coating. We have never received any complaints of chemical incompatibility or any other problems with conformal coating our products.
    Ultrasonically cleaning can cause damage to sensitive electronic components, so it is not recommended. Nevertheless, some RECOM parts can be cleaned without harm, so if ultrasonic cleaning is necessary, please contact Recom Technical Support for advice.
    In addition to the standard ranges shown in the data sheet, RECOM has the capability to produce custom AC/DC and DC/DC converters designed to your specific requirements.
    In general, there are two customizations available: modification of an existing product or a full custom.
    Modified parts can be quickly designed to ""tweak"" the specifications to better fit the application, for example, a non-standard output voltage or extra long pins. Prototype samples can also be produced in short timescales, often with a minimal increase in cost.
    Full custom is a new design with a different shape, specification or additional outputs, for example. An NRE (Non-Returnable Engineering) charge will usually be required and a Minimum Order Quantity (MOQ). Contact Recom Technical Support for more information.
    For normal function, no external capacitors are required for normal operation, unless specified in the datasheets. For EMI filtering, consult our recommendations in our Application Notes.
    All RECOM production batches are burn-in tested in our factory before being shipped to the customer.
    The inrush current is dependent on the converter, the load (especially the capacitive load) and the impedance of the primary power supply. Therefore, there is no recommended value for the inrush limiting inductor as this need to be individually worked out for each application. Having said that, usually 22µH~100µH is a good starting point.
    A CMC is a good inrush current limiter because the core does not go into saturation with high currents (the +ve inrush current is balanced out by the -ve inrush current), so it has a dual purpose: EMC filter and inrush limiting. However, for high power converters it is sometimes better to use a low inductance, high current, choke that is selected to reduce inrush rather than a high inductance choke selected for the best EMC filtering because otherwise too much power could be lost through the choke's resistance during normal operation.
    Recom does not offer this feature in any of its DC/DC converters. Synchronizing the oscillators in several converters is a useful technique where beat frequencies must be avoided at the cost of an increased amount of interference at the main frequency. Usually effective results can be achieved by individually filtering each converter without creating a strongly interfering main frequency.
    In theory, yes, but in practice it is very non-linear. Adjusting the output voltage using an external voltage or current can also affect the regulation and short circuit behaviour, so it is not recommended.
    Our AC/DC converters usually incorporate input surge protection, although some series require an external suppression MOV to meet all operating conditions. Our DC/DC converters do not usually incorporate surge protection, although an electrolytic capacitor placed close to the input pins is usually sufficient to meet the requirements of 61000-4-5.
    Reverse polarity protection is not built inside any of the converters. It needs to be added externally. We recommend adding an external MOSFET for higher power converters or a simple blocking diode for lower power, non-critical applications.
    RECOM has one of the largest selection of non-isolated DC/DC products on the market. Our search engine allows searches for non-isolated converters only.
    An isolated DC/DC converter has no electrical connection between the input and output. So it does not matter if Vin+ is connected to a positive supply and Vin- is connected to ground or if Vin+ was connected to ground and Vin- was connected to a negative supply. This is useful in the telecommunications industry, for example, where a standard -48V supply can be used to generate a +5V output (Vin+ = ground, Vin- = -48V, Vout + = 5V, Vout- = ground).
    This does not apply to non-isolated switching regulators, but the R-78 series can be configured to generate a negative output voltage from a positive input voltage (refer to the Application Notes).
    The main problem with a 12 battery as a power source is that it can deliver very high inrush currents. Normally with lower power converters (under 20W), this is not a problem, but for the higher power converters the inrush current can damage the converters or extzernal components. The other issue with batteries is if the end-user connects the battery the wrong way around, this will instantly destroy any converter. To avoid these problems, an external blocking diode or FET can be fitted and either a soft-start circuit or an inrush current filter can be added. Please contact Recom Technical Support for suggested circuits and component values.
    The unregulated converters have a deviation curve depending on the load. The lower the load is, the higher the output voltage. Please check the graphs included in our Datasheets about Deviation/Load. Usually, these converters need at least 20% load.
    RECOM prides itself on having comprehensive datasheets, but there may be a parameter or operating characteristic that it not listed.

    We offer local Technical Support through our offices in Austria, Germany, USA, Singapore, Japan and China, or you can contact your local RECOM contact or distributor to ask us for more information.
    The converters have a derating curve that starts usually between 70°C and 85°C. From that temperature point onwards the load must be reduced to limit the internal heat dissipation. You can use a heat sink to move this temperature point up a few degrees, but if your application doesn’t have an adequate cooling system, even a large heat sink may not be effective. Plastic cased converters cannot be effectively heatsinked. Use a higher power converter instead to increase the derating.
    You can use a dual 15V output converter (+/-15V), omitting the common pin and using only the +Vout pin and –Vout pins. Dual output converters regulate between the +ve and –ve output rails only, so connection to the common pin is unnecessary for the converter to work normally. This is true of any dual output converter, so +/-5V = 10V, +/-9V = 18V, +/-12V = 24V and +/-15V = 30V.

    If isolation is not required, the –ve output pin can be connected back to the +ve input pin to boost a supply voltage. For example, a 24V supply feeding an isolated 24Vin, 24V out DC/DC converter wired up this way will generate a 48V output voltage with double the power: 24V@1A (24W) from the supply + 24V@1A (24W) from the converter = 48V@1A (48W)
    The Remote On/Off or Control pin is commonly used for the following reasons:
    To control a high-power converter using a low-power signal. The input power of a control pin is typically only a few milliwatts, but it can enable or disable a converter of as much as a hundred watts. This means that the low power output of a microcontroller or logic IC can be used to control a system without the need of extra amplifiers or bulky relays.
    To power-up or power-down a system of several converters in the right sequence. Many complex power supplies need to start up or shut down in a certain order to be safe. An example could be a computer-based controller where the microprocessor should be up and running before the peripherals are powered up. Another example is where one power supply feeds another. The primary power supply often should have reached a stable output voltage before the secondary power supplies are turned on.
    To save energy. A control pin can be used to turn off the power completely to parts of a circuit during standby mode, while leaving a central watchdog circuit still active. This is especially important for battery powered circuits because all DC/DC converters draw some power even when they are not loaded.
    To reduce the inrush current. In a system of several parallel sub-systems, it is often useful to stagger the start-up of each sub-system so as not to overload the primary power supply or cause the main fuse to trip or blow on switch-on.
    The trim pin (if fitted) can be used to increase or decrease the regulated output voltage over a limited range (typically +/-10% or -20%, +10%). Some switching regulators offer a Vadj. pin which can adjust the output voltage over a wider range (up to +/-50%).
    Connecting a resistor between trim (or Vadj,) and the Vout+ pin will reduce the output voltage. Connecting a resistor between trim (or Vadj,) and the Vout- or Gnd pin will increase the output voltage.
    Trimming is typically used to help compensate for the voltage drop along a long cable or PCB track by increasing the output voltage, or to reduce the output voltage to avoid over-voltage stress on the load under worst-case conditions.
    Voltage trim is also useful to match different battery chemistries. A 12V lead acid battery can be trickle charged using a 12V converter trimmed up to 13.2V (+10%) or a LiPo Battery safely charged from a 5V converter trimmed down to 4.6V (-8%).
    The sense pins (Sense + and Sense-) are used by the DC/DC converter to regulate the output voltage as delivered to the load, not as measuresd directly across the output pins. The converter uses four connections, Vout+ and Vout- delivering a high current and two low current connections, Sense+ and Sense- for feedback. The advantage of using the sense pins compared with simply trimming up the output voltage to compensate for the volt-drop along the connection is that sense pins regulate the load voltage at both low and high load currents, thus avoiding too high a load voltage when lightly loaded. Sense pins can also be used by some load sharing controllers to allow two or more DC/DC converters to be connected in parallel to increase the power.
    Some unregulated bipolar converters feature power sharing, where all or some of the load can be taken from just one output pin.
    Regulated dual output converters regulate the difference between Vout+ and Vout- and allow the common pin to float. So if a +/-15V is asymmetrically loaded with, say +80%, -20%, then the output voltage difference will stay 30V, but the common pin will drift so that the output voltage will measure +13, -17V. If a balanced output is required with unbalanced load, then use post-regulation to stabilize the outputs.
    When a control pin voltage is rising, the switching point (threshold) is higher than when the voltage is falling. The difference between the rising voltage trigger point and the falling voltage trigger point is the hysteresis. For example, a converter with negative control logic could switch on as soon as the control pin voltage exceeds 3V but once started, only switches off again when the voltage drops below 1V. The 2V difference is the hysteresis and stops the converter from switching on-and-off erratically with a slowly rising or falling control voltage.
    Some RECOM converters, like the R-78AA series, have a two level control pin function. If the control pin voltage drops below 2.6V, the main power stage is switched off, but the internal oscillator and voltage regulator is kept running. This allows a very rapid restart from standby to full power. For ultra-low power mode, the control pin voltage must be below 1.6V. Then the main oscillator is also turned off and the converter draws only 20µA from the input. Start-up will be slower from deep sleep than from standby.
    Negative control logic means that logic 0 (low) enables the converter and logic 1 (high) disables the converter. If the pin is left unconnected, it will be logic 0 and the converter will start up as soon as power is applied.
    Positive control logic means that logic 0 (low) disables the converter and logic 1 (high) enables the converter. If the pin is left unconnected, it will be logic 0 and the converter will not start up when power is applied, but wait for a positive signal before starting. For many safety-critical systems, this is an important feature.
    Quiescent or standby current is the current drawn by the converter from the supply when it is unloaded (the converter is active and has an output voltage, but no output current). The shutdown current is the residual current drawn by the converter from the supply while it is disabled by using the control pin. The control pin current is the current drawn by converter through the control pin in order to keep it in the disabled state.
    The maximum allowed control pin voltage varies from converter series to converter series. Most DC/DC converters allow up to 5V and some up to 12V or more. Refer to the datasheets for guidance. Do not connect an unused control pin to +Vin unless this is expressly permitted in the datasheet.
    All RECOM products will not be damaged if used without s load, although in some families some specifications may be out of range below 10% load.
    Nickel plated copper or aircraft-grade aluminium, depending on the converter series.
    We use a number of tin whisker mitigation strategies, all following the Jedec JP002 guidelines:

    Through Hole Devices
    The pins used in all of our through-hole converters are made of hard silver-copper alloy. The pins are then Nickel underplated to 0.5µm before being pure tin electroplated to 6µm thickness. This thickness of overplating is a compromise between reasonable manufacturing costs and having a thick enough coating to impair tin whisker formation. The surface is not ‘brightened’, also to mitigate tin whisker formation. Finally the pins are annealed according to JIS C3101. This reduces any residual forming stresses, which is one of the other potential causes of tin whisker formation.

    Surface Mount Devices:
    The carrier frames used in our SMD converters are made from DF42N nickel alloy which is pure tin plated. The pins are then hot dipped in Sn-Ag-Cu solder to mitigate tin whisker formation.
    The converters are not vacuum potted because we use a special process to remove the air bubbles (voids). The epoxy potting process is as follows:
    1- The two-component epoxy is mixed and placed under a vacuum for 1 minute to remove any air bubbles created by the mixing process.
    2- The plastic case is 1/3 filled and allowed to rest.
    3- The pre-tested converter pcb is inserted into the case and 2/3 filled and allowed to rest.
    4- The part completed converters are placed in a warm oven (30°C) for 20 minutes to allow any air bubbles to rise to the top.
    5- The case is sealed with a harder grade of epoxy and baked at 50°C for one hour to cure.
    6- In addition, spot checks are made with our X-ray machine to monitor and ensure that air voids are not present in any of our converters.
    The silicone rubber potting process is as follows:
    1- The pre-mixed silicone rubber compound is injected into the case
    2- The case is placed on to a shaker and vibrated to encourage any air bubbles to rise to the surface
    3- The case is topped up to the fill level
    4- The converters are put aside to cure at room temperature.
    An unregulated converter is a cheaper solution but offers less output voltage stability. The output voltage can change depending on both the load and the input voltage variations. Therefore, the input voltage range is restricted to +/-5% or +/-10% , so it is recommended to use unregulated DC/DC cpnverters only with a regulated supply voltage. The output voltage can rise substantially during no-load conditions, but, even an unregulated converter offers a low output voltage variation over a 20% to 100% load range.

    Regulated converters offer a much better load and line voltage regulation, typically less than 1%, so the output voltage is not dependant on the load or input voltage. In particular, the output voltage remains stable under low load or no load conditions. In addition, the input voltage range is higher (2:1, 4:1 or up to 7:1 with non-isolated converters), so regulated converters are suitable for use with variable input voltage supplies such a batteries or multiple supply voltages (e.g, 12V or 24V supplies)
    The current drawn by the converter when it is idle (not loaded). All converters contain oscillators that absorb power even if no power is being drawn from the converter.
    At a certain ambient temperature the internal heat dissipation makes it impossible for the converter to supply 100% of its power and the load must be derated (reduced) as the temperature goes higher. The derating curve shows the maximum power that the converter can deliver over the full operating temperature range. Some AC/DC converters allso have a low-temperature derating. This is due to increased losses caused by reduced efficiency at very low temperatures.
    Different converters have different on/off control voltages. Please check the datasheets carefully before connecting the on/off pin to ground or +Vin as this can damage the converter. Some on/off pins may require additional external components if driven with a TTL level signal.
    The higher power converters are optimized to run with the highest efficiency at full load. This means, for example, that the switching transistors need to switch very rapidly to avoid wasting power in the region between fully on and fully off. With no load, the switching drivers still run at full power which makes the converters run warm.
    Low power converters that uses post-regulation must be designed so that at the minimum input voltage there is enough output voltage headroom that the linear regulator can regulate properly. This means that with the nominal input voltage, there will be a higher voltage drop across the linear regulator, which in turn will increase the quiescent current drawn by the converter.

    Higher power converters often use synchronous rectification on the output. The switching transistors still run at full power even under no-load conditions, so this can lead to a high quiescent current.
    Yes, if they are derated (not used at full power). However, the simpler low cost converters have no overtemperature protection. If they are used outside of the temperature specification for a long period of time, they may fail. Our higher power DC/DC and AC/DC converters are fitted with over temperature protection. If they overheat they will simply shut down.
    Isolation refers to the electrical separation (galvanic isolation) between the input and the output of the converter. This means that the output of an isolated converter is not linked to the input and any electrical interference, voltage differences and fault currents are blocked. This is extremely important in applications where the output circuit is connected to the “real” world and the main circuit must be separated from anything that happens to the output circuit. DC/DC converters are usually specified with the DC isolation for 1 second, AC/DC converters are usually specified with the AC isolation for 1 minute.
    The isolation voltage given in the datasheets is valid for 1 second flash test only. If an isolation barrier is required for longer or infinite time the Rated Working Voltage has to be used. Recom provides an isolation conversion calculator on the website to indicate the equivalence bewtween DC and AC isolation for 1s, 60s or continuous.
    It is very important that you compare the same type of isolation when comparing our products with the competitors to avoid misunderstandings.
    The inverse of MTBF (1/MTBF) gives FIT (Failures in Time) - the number of expected random failures per billion hours of operation.
    MTBF is calculated according to component reliability figures listed in the MIL STD 217F Handbook under Ground Benign (GB) environmental conditions.
    An alternate method is to use the figures listed by Bellcore TR-NWT-000332.
    The two methods are not comparable and give completely different results.
    The MTBF (Mean Time Between Failures) is a calculated figure based on the chances of a random failure causing the converter to stop working - ignoring all of the real-life stress factors such as over voltage stress, under voltage stress, thermal stress, switching stress or component aging. It should not be confused with operational lifetime. For comparison, the MTBF of a 25-year old healthy person is around 800 years - meaning if that person never got ill, lived an ideal, unstressed lifestyle and never aged - so that the only cause of death would be accidental injury- then that person would theoretically live 8 centuries. MTBF is a comparative measure of reliabilty, but not an absolute measure.
    The standard environment for MIL STD 217F calculations is Ground Benign.
    The correction factors for other environments are:

    Ground Benign (GB) = 1.00
    Ground Mobile (GM) = 0.61
    Naval Sheltered (GNS) = 0.61
    Aircraft Inhabited Cargo (AIC) = 0.61
    Space Flight (SF) = 1.00
    Missile Launch (ML) = 0.32
    MTBF (Mean Time Between Failures) of different components in a system can be added up to give overall board-level reliability. As MTBF is a standard measure used for all electronic components, it is useful to also have the figure for the DC/DC converter in the datasheets.
    MTBF figures can also be used to compare the reliability of two different DC/DC products. The product with the highest MTBF will, in general, have the highest reliability. Care must be taken when comparing MTBF figures between different manufacturers as the way they are calculated may differ significantly.
    The datasheets specify the maximum capacitive load. If the combined capacitive load is higher, the converter may go into short circuit protection on power-up.
    For switching regulators, but the output capacitor may discharge back into the output of the converter if the input supply is suddenly removed and damage the converter. Fitting protection diodes can avoid this reverse current flow.
    All of our DC/DC converters contain a built-in input capacitor filter, so an external capacitor is not required for normal operation, unless specified in the datasheet. An input capacitor may also be required to meet surge requirements or to smooth the DC supply at the point of load. If several DC/DCs are powered from the same rail, then input capacitors placed close to the input pins are recommended.
    Type is not critical. Actually, a lower quality, relatively high ESR capacitor on the input is actually an advantage as its internal resistance helps damp down any switch-on surge oscillations.
    A combination of tantalum or electrolytic in parallel with an MLCC on the input or output combines the advantages of both types (high ESR to reduce ringing, low ESR to filter noise).
    Contact us for sales inquiries or technical support. We will get back to you as soon as possible.

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