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3. 1 Vin lt 4 CASE Pp TRM CNT s 1 8 Vin LV Vin CASE CNT ON OFF Vin V S TRM S V
4. AM MX Q_PAH_45 GO PAH20OH lt d PAH_68 5 oe 2V M 2 ON 240VA
5. 1 5kVDC 1 10mA
6. AM MX Q_PAH_51 PAH300S48 350S48 AM gt i 19 1 7 1 5kVDC 1 10mA 500VDC 1 10mA 19 2 TDK Lambda DC MAX 500V 500VDC 100MO
7. 1 5kVDC 1 5kVDC 500VDC 1 10mA
8. 1 5kVDC 1 5kVDC 500VDC 1 10mA
9. 1 5kVDC 1 5kVDC 500VDC 1 10mA
10. 40 0 0 20 40 60 80 100 9 _ Pe 4 _ 1 nO d PAH _ 27 PAH50S 75S 100S 150S 200S TDK Lambda
11. EN60950 UL1950 36 76V dc
12. PAH 4 1 ON OFF CNT S S TRM 4
13. N 48V Non SELV
14. a Vout C4 12V 25V 470 u F 28V 50V 220 nu F 48V 100V 120 u F 1 1 C4 1 LXY 2 20C 3 PAH300S24 350S24 3
15. LLLI 1 1 Vin ___ CASE ea vin 9 CNT ON OFF gt Vo2 Vin CASE TRM2 Vo2 2 Vo2 2 CNT Vol TRM2 2 Vol Vo1 1 Vin TRM1 Vo1 1 G TRM1 1 ON OFF 1 PAH
16. Vin VO_ CNT s TRM CASE 5 Vin VO 1 5kVDC 1 10mA 19 1 Tvin VO OCcNT TRM CASE 5 in vO PP 500VDC 1 10mA 19 2 d_PAH_38 PAH300S24 350S24 DC
17. hl TN kl PAH d_PAH_67 PAH2ooH TDK Lambda PAH 00H PAH300S84 350884 CS d_ PAH_33 PAH50S48 200S48 EE d PAH_41 PAH300S48 350S48 EE d PAH_46 PAH450S48 Ce d PAH_54 GO PAH75D d PAH_63 2 am
18. gt AC1 5kV 20mA 1 AC1 5kV 20mA 1 500VDC 100 MO DC500V
19. N A 2 W209 2 a
20. Vout C2 28V 50V 22uFX4 48V 100V 4 7uFX6 1 1 C2 V V 28V 10 000 uF 48V 2 000F 1 C3 PAH450S48
21. TDK Lambda Vo1 3 3V Radj 1 S814 A Vo 269 ko A 2 4 6 8 10 AV V 0 066 0 132 0 198 0 264 0 330 R OQ 50 058 23 684 14 893 10 497 7 860 Vo2 2 5V Radj 2 Sa Ve ko A 2 4 6 8 10 3 AV V 005 010 0 15 0 20 0 25 R Q 8670 3 570 1 870 1 020 510 5 PAH75D48 3318 Vo1 3 3V Radj 1 NO A 2 4 6 8 10 AV V 0 066 0 132 0 198 0 264 0 330 R OQ 30 752 14 876 9 584 6 938 5 350 Vo2 1 8V Radj Yo ko A 2 4 6 8 10 AV V 0 036 0 072 0 108 0 144 0 180 R 9 256 778 127 889 84 926 63 444 50 556 Vo1 3 3V Radj 1 89144 Vo2690 ko A 2 4 6 8 10 AV V 0 066 0 132 0 198 0 264 0 330 R 9 50 058 23 684 14 893 10 497 7 860 Vo2 1 8V
22. 0 a CE ee RN 48V 1 1 CE PAH Ll 1 Vin Vn SM CASE CNT ON OFF 5 Vin CASE gt TRM V CNT 3 S 8
23. d PAH _ 19 AM PAH450s4g TDK Lambda PAH450S48 lt lt lt PAH450S48 28 PAH450S48 48 V DC36 76 typ 1 92 typ 2 A 10 3 10 4 VDC 28 48 A 16 9 4 W 448 451 2 2 1 3 mV 56 96 4 mV 56 96 0 02 10 ImVpp 280 480 10 40 18 40 20 5 105 140 6 9 125 145 9 ON OFF 9 ON OFF 9 7 40 100
24. 19 1 Vin VO__ vo CNT 0 Vii TRMO nO Ac vinC 9 vinC 1 5kVDC 1 10mA 19 1 AM MX d_PAH_73 AM NM PAH PAH2ooH DC MAX 500V 500VDC 100MO
25. TDK Lambda 1 5kVDC 1 10mA 19 1 500VDC 1 10mA 19 2 DC MAX 500V 500VDC 100MQ Vin V CNT S ox TRM co CASE S ox Vin vo lt L_ DC 500VDC 100MO 20 1
26. d_PAH_60 PAH 450s4s TDK Lambda 3 qr 1 1 1 2 M3 M3 M3 Guw 0 M3 3 4 SZ 9 M3
27. 100uF 100V 1 LXV 2 C1 C2 vV V 50mm 1 1 I
28. 2 S S 5 3 S S Q_
29. 30 2V 240VA 28V SELV
30. d_PAH_39 AM NMFX PAH300S24 350S24 1 1 1 P M3 4 M3 TDK Lambda El 1 260C 10 0 54N m 110C 30 40 1 2 T PT 2 1
31. d PAH 5 PAH5sos4g PAH50S48 TDK Lambda pAH50S48 2 5 PAH50S48 3 3 PAH50S48 5 PAH50S48 12 PAH50S48 15 PAH50S48 24 PAH50S48 28 V DC36 76 typ C1 76 79 83 85 86 87 typ 1 A 0 80 1 02 1 26 1 24 1 25 1 22 1 21 VDC 2 5 3 3 5 12 15 24 28 A 0 A 11 7 10 0 4 2 3 4 2 1 1 8 W 29 25 38 61 50 0 50 4 51 0 50 4 1 1 6 4 2 mv 10 24 30 48 56 5 12 mV 10 24 30 48 56 0 02 C 20 lt 100C 3 ImVpp 150 200 240 280 40 lt 20C 3 ImVpp 300 250 300 350 2 10 15 40 10 40 6 105 150 aa 120 160
32. 1 R 1 JEITA F Ro C 4700pF 3 1 El
33. 2 S S PAH web140409 d PAH_76
34. Ei OCP OCP
35. TDK Lambda 1 5kVDC 1 5kVDC 500VDC 1 20mA
36. AM MOX Q_PAH_71 AM MN PAH PAH2ooH 20ms 50ms ON OFF OVP OVP OVP OVP OVP ON OFF OVP 24VDC V V 100ms 400ms
37. 3 Q_PAH_41 AM 5 NM PAH 50s48 200S48 TDK Lambda ON OFF FT1 OTNO Vin C1 8 CNT POWER 7 4700pF__ CAsE MODULE 1 F1 50mm Oo EIAJ RC 9141 100MHz 20C 100C gt a NE 25V8 3vlsvlt2vlisvlz4vlzsv 48v RnR rr eg t
38. 0 24V 1 2V 240VA a a a a 9 Ns 0 a
39. ES CE CE 48V 1 Ll 1 PAH oO V vin Vin O V CNT ON OFF 8 CNT Vin TRM V 5 o 5 TRM elly S V o v Vin Vin Vin V V
40. d PAH 3 PAHs5s0s24 TDK Lambda PAH350S24 lt lt lt PAH350S24 28 PAH350S24 48 V DC18 36 typ 1 88 87 typ 2 A 17 36 VDC 28 48 A 12 5 7 3 W 350 350 4 2 1 2 3 mV 56 96 4 mV 56 96 0 02 10 ImVp p 280 480 10 40 18 40 10 5 105 140 6 9 125 140 115 140 9 ON OFF g ON OFF 9 7 C 40 100 40 40 100 RH 5 95 RH 5 95
41. 1 1 1 P M3 4 M3 0 54N m 1 2 T PT M3 2 2 1 P 3 5 mm TDK Lambda 2 2 T
42. 1 3 1 4 C6 33 F 100V oo SH Mh Vin 1 3 Vin C6 C1 Vin C1 1 4 Vin 1 5 EMI VCCI 1 FCC class A 1 EMI
43. d_PAH_74 PAH2ooH 2 1 6 1 5 HBTeUgnml 20 40 60 80 C 39 1 6 F 1 PAH200H48 1 0mm 1 5mm
44. Vamw PAH 2 lo PAH 2 VF v s oO PAH 4 5 0 Tv 0 s 0O PAH 4 a a TE 2 D TDK Lambda
45. 100 1 100C 13 1 CL 13 1 TDK Lambda
46. 9 d_PAH_48 PAH300S48 350S48 1 II IIIiIE 0 36 se a 37 38 39 76 VDC 2 1 1 1 1 1 2 TRM S Radj down v O S TRM ma Radj down S 2 2 1 1
47. d PAH 2 PAH300S24 TDK Lambda 2 2 Ws NN Ni gt wl fs lo y CASE g s eTRM a CNT s Vin v O N 48 3 0 3 57 9 0 5 _ 4 M3 FG 1 3 12 7 0 5 Imm PAH 120 100 lt App 1 40 20 0 20 60 80 100 120
48. 100uF 100V 1 LXV 2 C3 3 20C C3 2 C4 PAH200H48 1 3 1 4 C4
49. t 1 6mm 35 um g Vin Vin V V 5 1 1 1 M3 4 M3 0 54N m 1 2 T
50. Vin 0 V Vin O e O v 7 CNT ON Tm TKM OFF OVP 0 5 9 PAH50S 75S 370KHz OTP PAH100S 200S 400KHz OVP OVP PAH ON OFF OVP 0 OVP OCP OCP OTP 0 bp Tp 115YC typ Tp lt 85O OFF ON OFF ON ON OFF d_PAH_28 PAHS3oos 350S TDK Lambda
51. C5 0 1uF V V 50mm C6 PAH300 350S24 1 3 1 4 C6 220 F 50V 4 oo Vin Ce a Vin 1 3
52. 1 2 TRM S Radj V 5 PAH TRM Radj S 1 3 100 A Radj doum 2 kO Radj down 5V 4 5V 10 10 R 1000 a EN 0 10 20 30 40 A 2 2 1 a 2 2 TRM S Radj PAH TRM S 2 3 6 Gp
53. KA 7 500VDC 100MQ 20 1 3 1 1 1 2 d_PAH_52 Ff 4 MM 7 M3 1 Ma 1 1 P M3 3 4 a M3 5 My amp
54. PAH200H48 1R2 PAH200H48 1R5 PAH200H48 1R8 PAH200H48 2R5 PAH200H48 3R3 6 V DC36 76 DC100 100ms typ 1 82 84 87 88 90 typ 1 A 2 19 2 67 3 08 4 23 4 68 VDC 1 2 1 5 1 8 2 5 3 3 9 A 70 60 W 84 105 126 175 198 1 1 2 mV 10 3 mV 10 0 02 C 8 mVp p 100 8 20 10 15 4 105 140 5 120 140 6 ON OFF 6 7 Ta 40 85 40 100 RH 5 95 RH 5 95 10 55Hz 1 0 825mm 49 0m s2 X Y Z
55. Q_PAH_6 PAH 50S48 TDK Lambda PAH50S LO 1 nM Ue a 57 9 MAx HH coo 4 8 48 3 0 5 s 1 4 a L of Nm IS of e CASE s 2 a lt 2 N SH TRM e FL oO 8 4 MP 5 ENT s 1 4 5 o Vin V N NN 2 1 G 7 1 0 NN_ 2 2 0 i 4 M3 FG mm 120 100 Pe cn 40 20 0 20 60 80 100 120 lt A
56. 2 2 TRM S Radj up v O 5 PAH200H a Radj up TRM s V OQ 2 4 2 2 3 1R8 2R5 3R3 Radj up ok A AA JIka 1R5 Radj up EIR 0 2 ko 1R2 Radj up 0 22 ko Vo Radj up 3 3V 3 63V 10 10 PAH2ooH 1000 Radj down kQ 1 0 A 25 2 1000 Radj down kQ ET Vr A 2 6 3 3 R1
57. 33 uF 1 LXY 2 C1 20 2 100V w C2 C3 0 022uF V MS V M3
58. TDK Lambda OCP OCP OVP OVP OVP
59. 3 3V 15 1 2V 1 5V 1 8V 2 5V 20 10 2 1 9 15 8 40 VDO 2 1 1 1 1
60. M3 AM i d_PAH_61 PAH 450s4gs 2 2 1 TDK Lambda 1 260 C 10 110C 30 40 2 1
61. Q_PAH_16 PAHSs0os4s TDK Lambda 2 Tas em Ni gt vn lo CASE g s eTRM CNT 2 s Vin v V N 48 3 0 3 57 9 0 5 _ 4 M3 FG 12 7 0 5 Imm ul PAH I 120 100 80 60 9 40 20 40 20 0 20 60 80 100 120 App 1
62. 100 1 100C 13 1 TDK Lambda CL O 13 1
63. 8 9 10 d_PAH_20 PAH450s4gs TDK Lambda 4 9 3 Vin V EA CASE S gt MM TRM o 8 CNT S a Vin 2 7 N_ ee 48 3 0 3 57 9 0 5 0 1 le 12 7 0 5 Lot No seal mm 1
64. M3 1 2 T PT Gam 6 1 1 1 P M3 4 M3 0 54N m 1 2 T PT 3 4 4 M3 3 4 M3 4 0 54N m 2 M3 T PT 3 4 MS CASE MG CASE FG 3
65. amp 1 5m 50Q LT JEIT ITA 30mm C3 C4 RS0O C 4700pF El OCP UI 6 OCP 0OCP
66. Vin V Vin CCU 500VDC 100MQ 20 1 TDK Lambda 3 1 1 1
67. PCB PCB 25 4mm O 1 O O 1 i 12 7mm 76mm Ta 1 1 1 2 1 3 1 4 0 2m s OTP Vin 48VDC PAH200H48 1R2 1R5 1R8 P V PV 1 3 PAH200H48 3R3 P V PV
68. S S
69. OVP OVP OTP 8 S V S
70. Qd_ PAH_17 AM PAHSs50s4s TDK Lambda PAH350S48 lt ii lt PAH350S48 12 PAH350S48 28 V DC36 76 typ 1 89 typ 2 A 8 25 8 24 VDC 12 28 A 29 2 12 5 W 350 4 350 2 1 3 mV 24 56 4 mV 24 56 0 02 10 ImVp p 200 280 10 40 10 40 18 5 105 140 6 9 115 135 125 140 9 ON OFF g ON OFF 9 7 C 40 100 40 c 40 100 RH 5 95 RH 5 95 10 55Hz 1 0 825mm 49 0m s2 X Y Z 1
71. TDK Lambda 9 1 V vs 9 3 ON OFF CNT ON OFF Negative Logic Positive Logic 2 ON OFF 1 CNT 2 CNT V
72. TV 1 S C5 s V ol 1 5m 509 HL R 1 JEITA R 50Q C 4700pF ets 3 1 d_PAH_49 AM NMFX AM 5 ka PAH PAH300S48 350S48 El
73. PBB PBDE PAH S48 48VDC AM NMF PAH 300W 350W 300W 350W 450W 12V 25A PAH300S24 12 25A PAH300S48 12 29 2A PAH350S48 12 28V 11A PAH300S24 28 12 5A PAH350S24 28 11A PAH300S48 28 12 5A PAH350S48 28 16A PAH450S48 28 48V 7 3A PAH350S24 48 4 9A PAH450S48 48 PAH S48 48VDC 50W 75W 100W 150W 200W 1 2V 70A PAH200H48 1R2 1 5V 70A PAH200H48 1R5 1 8V 70A PAH200H48 1R8 2 5V 11 7A PAH50S48 2 5 17 5A PAH75S48 2 5 23 4A PAH100S48 2 5 35A PAH150S48 2 5 70A PAH200H48 2R5 3 3V 11 7A PAH50S48 3 3 17 5A PAH75S48 3 3 23 4A PAH100S4
74. 12 1 12 2 TDK Lambda
75. ON OVP lt 1ms 1 4 H 35 V 0 L 0 8 V 570kHz OCP 8 TV EEE E PAH300S24 350S24 TDK Lambda 19le 1 19 7 PAH50S48 200S48 ea d PAH 41 PAH300S48 350S48 ea d PAH_46 PAH450S48 C d PAH_54 PAH 5D d PAH_B3 PAH200OH Sd_PAH_68 AM MX
76. ON OFF ON OFF 100ms OVP 10VDC OVP OVP OVP OTP 105C 130 80 95
77. Vin Vo1 Vo1 CNT TRM2 3 CASE ET Vin TRM1 500VDC 100M 0
78. 80 EE S S S S 2V S V S V S S 1 2 t
79. 1 3 1 4 C3 100uF 100V d_PAH_56 TDK Lambda 1 3 1 a C3 O Vin O Vin 1 4 Vin 9 1 5 EMI
80. OCP OCP OVP OVP OVP ON OFF ON OFF 100ms OVP 24VDC OVP OVP
81. 1 5kVDC 1 1 5kVDC 1 500VDC 1 PAH 100M Q 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 typ g 90 Wx HxD mm 61 x 12 7 x 57 9 16 500 1 24VDC 80 25C 2 24VDC 3 18 36VDC 4 5 6 7 8 9 10
82. C1 3 VCCI 1 FCC class A EMI PAH300 350S24 12V 48V 40 10 28V 40 18
83. V S TDK Lambda 2V dS 5 9 1 V W J TT 9 22 ON OFF CNT ON OFF Negative Logic Positive Logic 2 ON OFF 1 CNT
84. 4 12 7 0 25 5 08 0 5 2 57 9 max EE max 48 48 3 0 5 o Vo2 TE Vin Oo 7 62 10 16 o Voz CASE o 2 o TRM2 1524 E 10 16 n m o Vo1 Ps 1 CNT o 2 10 16 o _Vo1 1 Vin o 0 1 12 74 1 1 i i 92 8 10 1 0 PAH 120 a TF H 100 daoGocftoGoBaGGolidoooGGSGGodHbGoaooogGbGfydGooodGGoo nannannn 40 20 0 20 40 60 80 100 120 App 1 d PAH_25 PAH2ooH TDK Lambda PAH200H lt lt
85. d _ PAH 63 PAH75p TDK Lambda Su PAH75D24 PAH75D48 YVe2 2 _Vo2 250V 10A _ 250V5A A UL C1 Tbp 20C 100C Tbp 20C 100C 4 50V 100 100V 33 UPW KMP 9 Tbp 40C 100C Tbp 40C 100C a 50V 33 F 100V 33 Ft C2 2kVAC 4700pF C3 C4 33uF Vo2 9 PAH75D 90 8
86. 2 1 9 120 oo SS 0 18 18 5 19 19 5 36 VDC 2 1 d_PAH_35 AM NMFX AM NM PAH PAH300S24 350S24 1 1 1 1 2 TRM
87. H OFF L ON ON OFF 8 9 IM 10 S V H ON L OFF x S V il a NEGATIVE 11 H OFF L ON py POSITIVE H ON L OFF PAH200S48 12 P ON OFF ON OFF Q_PAH_14
88. CE Q_PAH_54 PAH 450s4s TDK Lambda 1 Vin CASE CNT ON OFF Vin V S TRM S V MS3 FG Vin Vin V V 2
89. 3 1 50mm C2 1 1 C2 3 1 JEITA 100MHz V s 0 S V U 50mm 1 0 ee 6 1 5m50Q 1 5 JEITA R 500 C 470pF 3 1 El
90. 1 5kVDC 1 1 5kVDC 1 500VDC 1 PAH 100M Q 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 typ g 90 WxHxD mm 61 x 12 7 x 57 9 15 000 1 48VDC 80 25C 2 48VDC 3 36 76VDC 4 5 6 7 8 9 10
91. Qd_ PAH_1 AM PAH300S24 TDK Lambda PAH300S24 lt ii lt lt PAH300S24 12 PAH300S24 28 V DC18 36 typ 1 87 88 typ 2 A 14 71 15 10 VDC 12 28 A 25 11 W 300 308 2 1 3 mV 24 56 4 mV 24 56 0 02 10 ImVp p 200 240 10 40 10 40 18 5 105 140 6 9 115 135 125 140 9 ON OFF g ON OFF 9 7 C 40 100 40 c 40 100 RH 5 95 RH 5 95 10 55Hz 1 0 825mm 49 0m sZ X Y Z 1 196 1m s2 8
92. d_PAH_26 PAH2ooH TDK Lambda PAH200H 1 MM Ke O vV Vin 1 2 5 V S CNT lg Es 0 EEEEE da EE EN V 1 a V Vin 9 O 2 1 48 26 0 5 57 9 0 5 8 i SV rT mm 1 8 K 3 aN 1 8 2 4 20 Sx 3 6 10 mA 1 GO d_PAH_68 PAH
93. C UL US SEMKO CE 2 4 M3 FG 3 2 2 0 4 7 1 5 0 25mm PAH SS 40 20 0 20 40 60 80 100 d PAH _ 21 PAH75sp24 TDK Lambda PAH75D24 oii PAH75D24 3325 PAH75D24 5033 CH 1 2 1 2 V DC18 36 typ 2 76 80 typ 2 A 2 71 3 91 VDC 3 3 2 5 5 0 3 3 A 0 0 A 15 0 1 W
94. V V 10 000 F C3 C3
95. 1 1 NE Vrpl 2Vp p t 1 1 MS3 N M3 1 2
96. 1 0 mm 1 5 mm 3 0 mm 2 0 mm 2 5 mm 4 5 mm M3 FG 3 5 mm 5 5 mm 4 1 6mm 35 um 5 Vin Vin V V 6
97. PAH 450s4gs 6 2 S 9 1 9 22 ON OFF CNT ON OFF ON OFF 1 CNT 2 CNT 1 CNT Vin 2 CNT Vin CNT Vin 0 1 uF 3 L CNT Vin 0 5mA 4 CNT 35V 1 ON OFF
98. PAH200s48 TDK Lambda PAH200S48 LO 1 nM a 57 9 MAx HH coo 4 8 48 3 0 5 i 1 4 a L of Nm IS of e CASE s 2 eR T ot 5 ENT s 1 4 5 e Vin v O N NN 2 1 DI lt 7 1 0 N_ 2 2 0 4 M3 FG mm 40 20 0 20 60 80 100 120 C lt App 1
99. 10 ON OFF OVP NEGATIVE UL ORES ks ON ON OFF P POSITIVE H ON L OFF NEGATIVE H OFF L ON PV POSITIVE H ON L OFF Z 3325 5033 PAH75D48 5033 P ON OFF ON OFF Q_PAH_24 PAH75sp4g TDK Lambda
100. 4 3 PAH 1 S S ON OFF CNT S S TRM 4
101. V V V V M3 M3 C2 C3 C4 V V 50mm Vout C4 12V 25V 470
102. 10 1 0 ER TL ELE PAH 120 100 CS ann nannannn 40 20 0 20 40 60 80 100 120 App 1 d_ PAH 23 PAH75D48 PAH75D48 omi lt TDK Lambda PAH75D48 2518 PAH75D48 3318 PAH75D48 3325 PAH75D48 5033 CH 1 2 1 2 1 2 1 2 V DC36 76 typ 2 74 78 82 typ 2 A 1 06 1 33 1 91 VDC 2 5 1 8 3 3 1 8 3 3 2 5 5 0 3 3 A 0 A 15 1 W Po1 Po2 45 Po1 Po2 50 Po1 Po2 60 Po1 Po2 75 2 2
103. ON OFF d PAH_66 PAH75p Negative Logic Positive Logic 2 ON OFF CNT 2 CNT CNT FVin a CASE 2 Vin 1 CNT CNT a V CNT 2 0V OFF L 1 0V ON b P
104. ON OFF 10 S V POSITIVE 8 V 7 ON L OFF NN NEGATIVE H OFF L ON py POSITIVE H ON L OFP PAH150S48 5 P ON OFF ON OFF d_PAH_12 PAH150s48 TDK Lambda PAH150S48 LO 1 nM a 57 9 MAx
105. 2 HBC
106. d_PAH_36 PAH300S24 350S24 OCP OCP OVP OVP OVP ON OFF ON OFF 100ms OVP 3VDC OV
107. PAH PAH75D24 10A PAH75D48 5A Vin Vo2 2 C1 Voz 8 Vin C amp CNT TRM2 Sg cAsE PAH75D24 100 F UPW Vo1 SN 20C 100C SI vo1 PAH75D48 33 uF NM TRM1 PAH75D24 33 F 40C 100C PAH75D48 33 F 68 F X 5 50mm 3 C3 C4 40C 100C 33 uF 6 8uF Xx 5
108. PAH2ooH 2 2 OO Vin 3 CNT 2 J PAH200H SEI Vin 10 1 PAH200H48 A D1 D2 1 VRRM 2 2 lo 2 3 VF 0 6VDC B
109. 100uF 100V 2 Vin Z C4 C3 Vin 1 3 tu oo r 3 H VI lt QN gt Vin 1 4 AM MX d_PAH_69 AM 5 MN PAH d PAH_70 PAH2ooH o CO 1 Vin VC O Vin VC 1 5
110. Vin Vin Vin PAH300S48 15A F15AH 125 250V PAH350S48 20A F20AH 125 250V C1 33uF NO Vin Vin 60 C1
111. d PAH_15 PAH3o00s48 PAH300S48 lt TDK Lambda rahai 1 PAH300S48 12 PAH300S48 28 V DC36 76 typ 1 90 a typ 2 A 7 02 7 21 VDC 12 28 A 25 11 W 300 308 2 1 3 mV 24 56 4 mV 24 56 0 02 10 ImVp p 200 240 10 40 10 40 18 5 105 140 6 9 115 135 125 140 9 ON OFF g ON OFF 9 7 C 40 100 40 c 40 100 RH 5 95 RH 5 95 10 55Hz 1 0 825mm 49 0m s2 X Y Z 1 196 1m s2 8
112. PAH 6 PAH75D48 2518 Vo1 2 5V Radi 1 94 AVofko A 2 4 6 8 10 AV V 005 0 10 0 15 0 20 0 25 R Q 49 840 24 420 15 947 11 710 9 168 Vo2 1 8V Radj Mk 0 A 2 4 6 8 10 A V V 0 036 0 072 0 108 0 144 0 180 R 9 256 778 127 889 84 926 63 444 50 556 Vo1 2 5V Vo2 1 8V d PAH_65 PAH75sp 7 PAH75D48 5033 Z TDK Lambda 40C 100C Vo1 5V Radj 1 A Vo 3 3 ko my Q50mV i 1 A 2 4 6 8 10 100mV 1 AVo V _0 1 02 03 04 05 CsmW R Q 21 680 9 180 5 013 2 930 1 680 4oc oc assc 10c
113. 8 S V S V V S 2V d_PAH_58
114. CNT Vin 10 1 CNT 1 d_PAH_50 PAH300S48 350S48 2 2 Vin 2 c 10 2 CNT 2 PAH300 350S48 12 1 12 2 ow SQ yM 12 2
115. 1 2 TRM S Radj down PAH200H Radidowm oi 2 2 1 TDK Lambda 1 3 1R8 2R5 3R3 Radi down 2 kg QR5 Radj down a 3 67 kgl 1R2 Radj down 1 67X100 267 ko Radj down 3 3V 2 97V 10 10 1000 Ss Radj down kO 10 A 2 3 1 2 2 1
116. CNT Vin 0 1uF L CNT Vin 0 6mA CNT 7 V PAH 50s48 200S48 1 ON OFF Vin CNT PAH CASE Vin 2 2 Vin CNT PAH 2 A 1 CASE PAH 1 PAH PAH
117. Vin V S V M3 FG Vin Vin V V Q_PAH_33 AM NM PAH PAH300S24 350S24 TDK Lambda We 52 2 a 1 PAH300 350S24 C1 a 38
118. 40 c 40 100 RH 5 95 RH 5 95 10 55Hz 1 0 825mm 49 0m s2 X Y Z 1 196 1m s2 8 1 5kVDC 1 1 5kVDC 1 500VDC 1 PAH 100M Q 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 typ g 100 Wx HXxD mm 61 x 12 7 x 57 9 18 000 1 48VDC 80 25C 48VDC 25C 3 36 76VDC 4 5 6 7
119. 1 1 Pn 3 3 OFF ON OFF ON yp Tp115O pp lt 5O d_PAH_31 PAH2oon d_PAH_32 TDK Lambda TVin TV 1 3 1 Vin V i a Y II cNT OH Y W a ME TRM 7 285kHz 1 ONOFF
120. 500VDC 1 100M QO 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 8 90 W xHxD mm 57 9 x 12 7 x 61 13 000 1 2 24VDC CH1 15A CH2 0A 25C 3 4 Tbp 25C 24VDC 5 18 36 VDC WITH RESPECT TO NOMINAL INPUT LINE 24V CONSTANT LOAD _ 25C OTHER OUTPUT F 25 ON OFF OVP 9 HOFF ON ON OFF 10 P
121. 10 55Hz 1 0 825mm 49 0m s2 X Y Z 1 196 1m s2 8 1 5kVDC 1 1 5kVDC 1 500VDC 1 PAH 100M Q 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 typ g 100 Wx HxD mm 61 x 12 7 x 57 9 18 000 1 24VDC 80 25C 2 24VDC 3 18 36VDC 4 5 6 7 8 9
122. A 2 4 6 8 10 AVo V 0 066 0 132 0 198 0 264 0 33 R 0O 26 100 10 495 5 294 2 693 1 132 Vo2 2 5V Radj 2 175 Vot107 kQ a PAH A 2 4 6 8 10 El OVP AVo V 0 05 0 10 0 15 0 20 0 25 PAH75D 2 RO 113 514 51 757 31 171 20 879 14 703 OVP OVP OVP 3 4222 A Vo 6 7712 2 Vo1 3 3V Radj 1 A Vo kO P A 2 4 6 8 10 2 AVo V 0 066 0 132 0 198 0 264 0 33 1 6 1511 A Vo 14 9307 ON OFF
123. S V 7 ON_L OFF NV NEGATIVE H OFF L ON POSITIVE EY H ON L OFF PAH100S48 5 P ON OFF ON OFF dQ_PAH_10 PAH1oos4s TDK Lambda PAH100S48 LO 1 nM a 57 9 MAx HH coo 4 8 48 3 0 5 1 4 a L of Nm IS of e CASE s 2 eR T MP 5 ENT s 1
124. 3 VCCI 1 FCC class A EMI PAH300 350S48 12V 40 10 28V 40 18 2 1
125. AM MX d_PAH_53 AM al PAH PAH 450sS48 TDK Lambda PAH450S48 PAH300S24 350S24 ES d PAH 33 PAH50S48 200S48 C d PAH_41 PAH300S48 350S48 CO d PAH 46 PAH 5D lt dPAH_B3 PAH8OOH Sd_PAH_68
126. RH 30 95 PAH 10 55Hz 1 0825mm 490m s9 X Y Z 1 196 1m s2 9 1 5kVAC 1 1 5kVAC 20mA 1 500VDC 1 100M 0 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 g 80 W xHxD mm 57 9 x 12 7 x 61 14 000 48VDC 25C 1 2 a 3 4 36 76VDC IDN OFF OVP 5 6 NEGATIVE 7
127. 1 Vin ca ca CNT Cc9 be CASE Vin 1 6 EMI 1 TDK Lambda C1 470uF 3 C7 4 7uF C8 C9 PAH300S48 0 22uF PAH350S48 0 33uF PAN4820 DENSEI LAMBDA 2 EMI 2 OO 9 Vin ca fe CNT cg 4 c9F CASE Vin 1 7 EMI 2 C1 470F 3 C7 4 7uF 2 C8 C9 PAH300S48 0 22F PAH350S48 0 33uF L1 150uH 1 2 C1
128. 2 5 28V 50V 1uF 406 100C 10o0oV33uF 100V6 8uFx5 40C 100C 48V a _ 3 C2 20C 100C 100V 1uF 40C 100C 100V 10uF C2 PAH EC EMI C2 40 100C 2kV 4700pF 4 C3 C3 ex KMY LXY d PAH _42 PAH 50s48 200S48 TDK Lambda 3
129. 4 5 e Vin v N NN 2 1 G 7 1 0 NN_ 2 2 0 4 M3 FG mm 120 100 Pe 0 40 20 0 20 60 80 100 120 lt App 1 d_ PAH_11 AM PAH150s48 TDK Lambda PAH150S48 lt lt lt pAH150S4825 PAH150S4833 PAH1505485 PAH150S4812 PAH150S48 15 PAH150S48 24 PAH150548 28 PAH150S48 48 V DC36 76 typ 1 75 80 84 86 88 typ 1 A 2 43 3 01
130. B 1 8V 2 5V CH Vo2 3 3V Radj 2 AVo 0365 ko gt so AVo 0 066 0 132 0 198 0 264 0 330 R 0 11 756 5 695 3 675 2 664 2 059 Vo1 5V Radj AVo4327o A 2 4 6 8 10 AVOV 01 02 03 04 05 R Q 20 680 8 180 4 013 1 930 680 Vo2 3 3V Radj 2 0 256 A Yo 695 kO A 2 4 6 8 10 AV V 0 066 0 132 0 198 0 264 0 330 R Q 3 194 1 254 608 285 91 8 PAH75D48 3325 Z Z OCP a 2 0599 A Vo 5 11 PAH75D OCP WO Yo
131. Positive Logic 2 ON OFF 1 CNT 2 CNT V CNT H 4V H 35V OFF LT Negative Logic 0V HS0 8V ON P H 4V HS35V ON PT Positive Logic 0VSHS0 8V OFF 1 T CNT Vin 2 P PT CNT Vin 3 CNT Vin CNT Vin 0 1F 4 L CNT Vin
132. 10 1 CNT 1 2 2 O Vin CNT 2 Vin 10 2 CNT 2 TDK Lambda PAH450S48 12 1 12 2 V s0 VO Ne S S 0 12 1 12 2 100 1
133. 2 CNT CNT H 4V HS35V OFF T Negatvelogic O0VSLS0 8V ON P H 4V HS35V ON PT Positive lOgc 0V LS0 8V OFF 1 ON OFF CNT Vin 2200pF 0 022F T CNT Vin 3 P PT CNT Vin 4 L CNT Vin 0 5mA 5 CNT 35V NM 1 ON OFF O Vn
134. 10 000 1 48VDC Ta 25C 2 3 G 7 ION 0FF OVP A NEGATIVE 10 V Hi OF ON ON OFF 9 V pp EF POSITIVE i Lc th 2 12 40C 20 2 5V 3 3V 5V 12V 15V H ON L OFF 2 RS 40mV NEGATIVE H OFF L ON POSITIVE RY H gt ON L OFF PAH50S48 5 P ON OFF ON OFF
135. 4 mV 10 24 30 48 56 5 mV 10 24 30 48 56 0 02 C 20 lt 100C 3 ImVpp 150 200 240 280 40 lt 20C 3 ImVpp 200 250 300 350 2 10 15 40 10 40 6 105 150 120 160 120 140 125 145 7 a 10 S S ON OFF 8 C 40 100 40 40 100 40 RH 30 95 lt RH 30 95 10 55Hz 1 0 825mm 49 0m s2 X Y Z 1 PAH 196 1m sz 9
136. ON OFF OVP OCP 2 JEITARC 9141 100MHz NEGATIVE H OFF L ON 0WOFF ON OFF P POSITIVE H ON OFF A0 m 10A 1 Vin se 7evpc V NEGATIVE H OFF L ON EE PV POSITIVE H ON L OFF L 50mm 1 PAH200H PAH200H 2 C1 1uF C2 10F
137. PAH200S48 12 PAH200S48 15 PAH200S48 24 PAH200S48 28 V DC36 76 typ 1 85 87 typ 1 A 4 91 4 92 4 82 VDC 12 15 24 28 A 0 A 16 7 13 4 8 4 7 2 W 200 4 201 0 201 6 1 1 6 4 mV 24 30 48 56 5 mV 24 30 48 56 0 02 C 20 100C 3 ImVpp 200 240 280 40 lt 20C 3 ImWpp 250 300 350 2 10 40 6 105 150 125 145 C10 S S ON OFF 8 5 40 100 40 PN 40 80 100 100 90 C 40 100 40 RH 30 95
138. PAH300S24 PAH350S24 inO 3 v VinO r ri 9 Vin V my S CASEO 7 O TRM 8 S CNTO y 1 o s 330kHz typ PAH300S48 PAH350S48 V VinO _ VinO O V CASE y 0O TRM 5 CNTO 4 L___ S PAH 370kHz typ 7 3 Vi
139. OVP OVP OVP OVP 2 P 2 1 2 ON OFF ON OFF ON VI PV Q_PAH_44 TDK Lambda OTP PAH 105C 130C
140. 0 5mA 5 CNT 35V 1 ON OFF OD vin ee oew Vin 10 1 CNT 1 2 2 O 2 10 2 CNT 2 AM MX PAH d_PAH_37 AM NM PAH PAH300S24 350S24 PAH300 350S24 12 1 12 2 12 2
141. TRM Vin o SW S 3 V MS3 FG Vin Vin V V d PAH 46 PAH300S48 350S48 TDK Lambda 5 19le 1 19 7 GO PAH300S 4 350S 4 w d PAH_33 GO PAH50S48 800S48 W d PAH_41 GO PAH450S48 d PAH_54 GO PAH75D d PAH_B3 PAH300S48 350S48 TDK Lambda 2 PAH300 350S48
142. 3 VCCI 1 9 0 FCC class A Radi down 100 ka A EMI AN 3 1 A PAH450S48 a A 2 a 1 ea 28V 40 18 48V
143. 3 1 JEITA 100MHz NSP C1 C2 100MHz R ET 3 1 JEITA RC 9141 1 5m 500 30mm 2 3 2 50mm C1 1F C2 10F C1 20MHz V 20MHz 1 5m 500 nO 3 2
144. PAH450S48 36 76VDC Ce 1 1 Vrpl NN 0 4Vp p Vrpl 4V 1 1 50mm Vin V CNT S el al Vin Q1 G2 CASE
145. Vin V SELV oi 3 CE
146. 1 Vin Vin Vin Vin PAH300S24 30A PAH350S24 40A C1 Vin Vin d_PAH_34 220uFx2 50V 1 LXY 2 IO C1 3 2
147. 2 S S 5 d PAH_62 PAH75sp TDK Lambda PAH75D GO PAH300S24 3508 4 d PAH_33 GO PAH50S48 00S48 d PAH_41 GO PAH300S48 350S48
148. 2 5 mm 4 5 mm M3 Be FG 3 5 mm 5 5 mm PAH300S48 350S48 4 1 6mm 35 um 5 Vin Vin V V 6
149. VCCI 1 FCC class A 1 EMI cl ks 7 0 1 6 EMI PAH 450s4gs TDK Lambda 1 2 TRM S Radj C1 220F down C2 C2 C5 C7 2 2uF S C8 C9 0 22uF TRM C10 C11 4700pF C12 C13 0 47 uF Radj down L1 80uH S AM MX V O 1 1 C4 a 2 2 1 2 C12 C13
150. 40 20 E 8 PAH 2 1 O1LELELEHIEEEEIEEHiHiii 0 8 sO 40 A 2 3 A 1 9 2 AU 4V 2 fi8 2 1 9 2 2 TRM S 100 Radj up 90 S 60 0 36 38 40 42 76 3 VDC TRM Radj up 2 1
151. 5 mV 6 6 10 6 6 6 mV 16 5 25 16 5 0 02 C 4 mVpp 75 100 75 100 75 100 9 10 0 10 10 0 10 A 105 165 105 165 105 165 105 165 105 165 105 lt 165 105 lt 165 105 165 LC A 3 3 3 CH2 0A CH1 5A CH2 0A CH1 5A CH2 0A CH1 5A CH2 0A CH1 5A 115 140 115 150 115 140 115 150 115 140 125 145 115 140 8 C9 1 ON OFF 9 C 40 100 40 40 100 40 RH 30 95 RH 30 95 PAH 10 55Hz 1 0 825mm 49 0m s2 X Y Z
152. es 5 5 TS Ji a 0 ve OE MD i i 9 5 8 ae 1 EF Vin Vin CASE CNT ON OFF Vin CASE TRM V CNT 15 TRM
153. 1 1 50mm 2 Vin S cs Po TT Ne el Vn YO vo i 4 L_CcNT so LL 1 2 ON OFF 1 Vin Vin Vin Vin PAH200H48 10A C1 1puF C2 10uF V V 50mm 1uF 10uF
154. 260C 6 110C 30 40 2 350C 3 AM MX E IPA PAH Q_PAH_75 PAH2ooH TDK Lambda 4 1 ON OFF CNT
155. 36 76VDC pe 1 1 Vrpl eis a 4Vp p ft 1 1 M3 0mm SC2 Vin V CNT S C4 C5 TM CASE 8 vin VC gt 4 C3 M3 1 2 1 Vin
156. Rag TRM2o C1 Yal vel C2 a Sd EMI C3 C4 1 PAH75D24 5033 2 5 A Vo 3 32 Vo1 5V Radj 1 Vo ko A 2 4 6 8 10 A Vo V _0 1 0 2 0 3 0 4 0 5 4 a R Q 21 680 9 180 5 013 2 930 1 680 4 a Vo2 3 3V Radj 2 DN A 2 4 6 8 10 A Vo V 0 066 0 132 0 198 0 264 0 330 R Q 11 756 5 696 3675 2665
157. V CNT 2 0V ON L 1 0V OFF CNT Vin CNT Vin CNT Vin 0 1 F CNT Vin 0 6mA CNT 7V PAH75D 40 100C
158. 196 1m s2 8 1 5kVDC 1 1 5kVDC 1 500VDC 1 PAH 100M Q 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 typ g 100 Wx HXxD mm 61 x 12 7 x 57 9 16 500 48VDC 80 25C 48VDC 36 76VDC
159. DC48 V DC36 76V 48V Vin GND Vrpl 4V 76V VDO PAH TRM S 8 Radj S S 1 1 1
160. V S V V S 2V 4 V gt s TRM s YY 9 1 TDK Lambda 4 1 V P 4 V 9 2 ON OFF CNT ON OFF Negative Logic
161. 100C 13 1 17mm CE 13 1 d_PAH_59 AM NMFX AM 5 MN PAH PAH 450S48
162. V 9 1 V V 10 000uF 9 3
163. 1 196 1m s2 7 1 5kKVDC 1 100MQ 25C 70 RH 500VDC NE UL60950 1 CSA C22 2 No 60950 1 EN60950 1 typ g 90 WxHxD mm 61 x 10 2 x 57 9 19 500 1 48VDC 2m s Ta 25C 2 36 76VDC 3 4 LVP 5 6 7 8 Vin amp
164. 6 105 150 120 160 120 lt 140 125 145 10 S S ON OFF 8 C 40 100 40 40 100 40 RH 30 95 RH 30 95 10 55Hz 1 0 825mm 49 0m s2 X Y Z 1 PAH 196 1m s 9 1 5kVAC 1 1 5kVAC 20mA 1 500VDC 1 100M OQ 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 g 80
165. IPA 2 4 1 ON OFF CNT S S TRM 2 S S 3 5
166. d PAH_46 GO PAH450S48 d PAH_54 GO ZS ee PAH2OOH Sd PAH_BB EN60950 UL1950 N
167. OVP OTP 105 130C 80 95 8 S V S V
168. 1 2 T 1 1 M3 4 M3 0 54N m 1 2 T 3 4 4 M3 3 4 M3 4 0 54N m 2 M3 T 3 4 MS MS FG 1 0 mm 1 5 mm 3 0 mm 2 0 mm 2 5 mm 4 5 mm M3 FG 3 5 mm 5 5 mm
169. H ON L OFF PAH75S48 5 P ON OFF ON OFF V PV d_PAH_8 PAH75ss4g TDK Lambda PAH75S48 LO 1 nM 57 9 MAx HH coo 4 8 48 3 0 5 s 1 4 a L of PT vV of mn e CASE s 2 a 5 mwde Ef 5 ENT s 1 4 5 e Vin v NN NN 2 1 DI lt 7 1 0 N_ 2 2 0 i 4
170. VR 1 2V 1 5V 1 8V 2 5V 3 3V R1 4 3k 7 5k 2 2k 1k 2 2k VR 1k 1k 1k 2k 2k 0 5 20 1 2 3 20 10 3 3V 15 1 2V 1 5V 1 8V 2 5V 3 3V R1 10k 18k 5 6k 3 3k 5 6k VR 500 500 500 1k 1k Q 5 20 16 2 4 10 2 6 TDK Lambda E S 1 JEITA RC 9141 JEITA RC 9141 7 12 7 13 3 1 50mm C1 1 uF C2 10F C1
171. 10 d_PAH 4 PAH3s50s24 TDK Lambda 2 2 TE Ni gt vn lo v CASE g s i 8 eTRM CNT 3 Vin v J N 48 3 0 3 57 9 0 5 _ 4 M3 FG 1 3 12 7 0 5 mm PAH lt App 1 40 20 0 20 60 80
172. 2 oO Ni Ce C1 Vin Vin C1 Vin 1 4 Vin Vin 1 5 EMI VCCI 1 FCC class A TDK Lambda 1 EMI x Vin ca Ki CNT C9 F CASE YY Vin 1 6 1 EMI C1 680uF 3 NS C8 0 9 0 47uF L1 1mH 1
173. CNT H 4V HS35V OFF Negative LoBiC 0V HS0 8V ON P H 4VS HS35V ON PV Positive LoBiC 0V HS0 8V OFF CNT Vin CNT Vin CNT Vin 0 1 uF L CNT Vin 0 5mA CNT 35V 1 ON OFF ee Vin 0 CNT PAH200H 1 Vin d_PAH_72
174. 0 825mm 49 0m s2 X Y Z 1 PAH 196 1m s 9 1 5kVAC 1 1 5kVAC 20mA 1 500VDC 1 100M QD 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 g 80 W xHxD mm 57 9 x 12 7 x 61 13 000 48VDC 25 1 2 3 C4 36 76VDC MS ON OFF OVP 7 NEGATIVE 8 H OFF L ON a _ 9
175. PT M3 El Ei 1 260C 10 110C 30 40 2 1 350C 60W 3 2 350C 150W 20 1
176. Radj up 10000 1000 Radj up kQ 100 0 10 20 2 5 2 E S JEITA 9141 7 12 7 13 3 1 V V M3 C2 C3 0 022F 50mm C4 1 1 C5 0 1F C5 3 1 JEITA 100MHz
177. _ 6 1757 A Vo 10 Vo Radj Vo2 2 5V Radj 2 A Vo ko7 A 2 4 6 8 10 AVo V 0 05 0 10 0 15 020 0 25 R Q 113 514 51 757 31 171 20 879 14 703 d PAH_64 PAH75p Vo1 3 3V Radj 1 A Vo 677 94ko A 2 4 6 8 10 A Vo V 0 066 0 132 0 198 0264 0 330 R Q 45 080 19 155 10 513 6 192 3599 Vo2 25V Radj 2 5 Ao 49397 ko A 2 4 6 8 10 A Vo V
178. EE d PAH_68 PAH2ooH TDK Lambda 2 1 Vin Vin PAH200H48 36 76VDC 100VDC 100ms 0 RN 0 4Vp p 4 Vrpl 4V
179. W xHxD mm 57 9 x 12 7 x 61 11 000 48VDC Ta 25C 36 76VDC PE EE EE OOND ORWMN oo ON OFF OVP NEGATIVE H OFF L ON ON OFF A V POSITIVE H ON L OFF NEGATIVE H OFF L ON POSITIVE
180. 0 He vo ON A 2 4 6 8 10 PV AVo V 0 05 0 10 0 15 0 2 0 25 R Q 108 091 46 580 26 077 15 825 9 674 OTP 20MHz PAH75D 105 130 C 2 80 a C3 II TRM2 LL ON OFF CNT vy ON OFF
181. 1 2 T PT 1 1 1 P M3 4 M3 0 54N m 1 2 T PT 3 4 4 M3 3 4 M3 4 0 54N m 2 M3 T PT 3 4 M3 CASE M9 CASE FG 3 1 0 mm 1 5 mm 3 0 mm 2 0 mm
182. 350C 60W 3 M3 2 350C 150W 20 4 2 2 1 P 3 5 mm 1 2 2 T PT IPA M3 2
183. 350C 60W 3 2 350C 150W 20 3 5 mm 2 2 T M3 _ 1 IPA 2
184. S S TRM 3 4 S S
185. M3 FG mm 120 100 Pe 0 40 20 0 20 60 80 100 120 lt App 1 d PAH 9 PAH1oos4g TDK Lambda PAH100S48 lt ii lt lt pAH100S48 2 5 PAH100S48 3 3 PAH100S48 5 PAH100S48 12 PAH100S48 15 PAH00S48 24 PAH100S48 28 V DC36 76 typ 1 75 80 84 86 88 typ 1 A 1 63 2 01 2 48 2 44 2 39 8 VDC 2 5 3 3 5 12 15 24 28 A 0 A 23 4 20 0 8 4 6 7 4 2 3 6 W 58 5 77 22 100 0 100 8 100 5 100 8 1 1 6
186. 00 Ao 10 2 a Vo Radj up 5V 5 5V 10 10 10 00 25V 3 3V MQ 0 01 4 6 8 d_PAH_43 AM 5 NM PAH PAH 50S48 200S48 2 4 5V 140 120 110 100 90 80 20 30 40 50 60 70 80 VDC JEITA RC 9141
187. 1 196 1m s2 10 1 5kVDC 1 1 5kVDC 20mA 1 500VDC 1 100M 0 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 g 80 W xHxD mm 57 9 x 12 7 x 61 13 000 MG 2 8V DC CH1 15A CH 0A 25 3 4 92 C a 48VDC 5 36 76 656 WTH RESPECT TO NOMINAL INPUT LINE 48V CONSTANT LOAD 25 0 WITH RESPECT TO 50 OF MAX LOAD OTHER OUTPUT 25 8 9
188. 1 5kVAC 1 1 5kVAC 20mA 1 500VDC 1 100M OQ 25C 70 RH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 g 80 W xHxD mm 57 9 x 12 7 x 61 12 000 1 48VDC Ta 25C 2 3 4 36 76VDC ee ON OFF OVP 7 a NEGATIVE 8 OFF L ON _ 9 ddd ON QFF 10 S V POSITIVE
189. 120 140 125 145 10 S S ON OFF 8 C 40 100 40 40 100 40 RH 30 95 RH 30 95 10 55Hz 1 0 825mm 49 0m s2 X Y Z 1 PAH 196 1m s2 9 1 5kVAC 1 1 5kVAC 20mA 1 500VDC 1 100MOQO 25C 70 HH 500VDC UL60950 1 CSA C22 2 No 60950 1 EN60950 1 g 80 WxHxD mm 57 9 x 12 7 x 61
190. 3 0mm 2 0mm 2 5mm 4 5mm 1 0mm 1 5mm 3 0mm 2 V V 3 PAH200H48 0 6mm 4 TDK Lambda 1
191. MAX 500V 500VDC 100MQ 7 500VDC 100MO 20 1 TDK Lambda 3 1 1 1 2 M3 M3 M3 1 1 P M3 43 4
192. a 1 2 4 2 1 1 Qd_ PAH_5 AM NM PAH PAH 450s4gs 2 3 0 0 Hadi up Vo 100 A 1009 2xA jko 1 225xA A Vo Radi up A A 10000 E 1000 Radj up kO 100E 0 10 20 A 2 5 A 2 E S JEITA 9141 7 12 7 13
193. oo ee O0 d_PAH_18 PAHSs50s4s TDK Lambda 2 N S Vin V 3 CASE g s e Tm CNT 2 s Vin v V N 48 3 0 3 57 9 0 5 4 M3 FG 1 12 7 0 5 Imm PAH 120 100 80 60 0 20 App 1 40 20 0 20 60 80 100 120
194. 2059 PAH75D24 DC18 36V 7 PAH75D48 DC36 76V Vrpl 4V 2 5 A Vo 4 32 Vo1 5V Rad 1 vo 9 A 2 4 6 8 10 A Vo V _0 1 0 2 0 3 0 4 0 5 R Q 20 680 8 180 4 013 1 930 680 Vo2 3 3V Radj 2 RN kQ A 2 4 6 8 10 A VoV 0 066 0 132 0 198 0 264 0 380 R Q 3194 1254 608 285 91 fa 2 PAH75D24 3325 TRM Vo Vo Radj SS NR Vo1 3 3V edj 1 9859 A Vo 511 ko TRM Vo A 2 4 6 8 10 Radj A Vo V 0 066 0 132 0 198 0 264 0 330 R Q 26 040 10 465 5 273 2 678 1 120 TRM
195. 005 0 10 0 15 020 025 R Q 108 091 46 580 26 077 15 825 9 674 3 PAH75D48 5033 Vo 5V Hadj 1 38316 A VO ko A 2 4 6 8 10 AVOV 01 0 2 0 3 0 4 0 5 R Q 37 316 18 158 11 772 8 579 6 663 Vo2 3 3V Radj 2 ko A 2 4 6 8 10 A V V 0 066 0 132 0 198 0 264 0 330 R Q 29 303 14 152 9 101 6 576 5 061 Vo1 5V Ra 1 L8184 4 Vo409 ko A 2 4 6 8 10 AV 01 0 2 0 3 0 4 0 5 R Q 112 094 54 002 34 638 24 956 19 147 Vo2 33V Radj 2 LSSAVO ko A 2 4 6 8 10 A V V 0 066 0 132 0 198 0 264 0 330 R Q 17 697 7 848 4 566 2 924 1 939 4 PAH75D48 3325 Vo1 3 3V Radj 1 0956 Yo ko A 2 4 6 8 10 A V V 0 066 0 132 0 198 0264 0 330 R Q 30 752 14 876 9 584 6 938 5 350 2 04 0 510 A Vo Vo2 2 5V Radj 2 Vo kO A 2 4 6 8 10 AV V 0 05 0 10 0 15 0 20 0 25 R Q 40 290 19 890 13 090 9 690 7 650
196. 3 72 3 63 3 58 3 64 VDC 2 5 3 3 5 12 15 24 28 48 A 0 A 35 30 12 5 10 6 3 5 4 3 2 W 87 5 115 5 150 151 2 153 6 1 1 6 4 mV 10 24 30 48 56 96 5 mV 10 24 30 48 56 96 0 02 C 20 lt 100C 3 ImVpp 150 200 240 280 250 40 lt 20C 3 mVpp 200 250 300 350 400 2 10 15 40 10 40 20 6 105 150 120 lt 160 120 lt 140 125 145 135 lt 155 10 S S ON OFF 8 40 100 40 40 100 40 RH 30 95 RH 30 95 10 55Hz 1
197. 35 V 0 L 0 8 V PAH7sp TDK Lambda tmo gt mA 0 i Vo1 Vin O wH as ww a TRM1 CNT OFF Vo2 lt VO2 TRM2 325KHz PAH Vo2 ON OFF Hr 4 4 4 4 4 4 4 4 4 4 4 4 4 OVP OVP OCP OCP
198. HH coo 4 8 48 3 0 5 1 4 a L of Nm IS of e CASE s 2 eR T MP 5 ENT s 1 4 5 e Vin v N NN 2 1 G 7 1 0 NN_ 2 2 0 4 M3 FG mm 120 100 Pe 0 40 20 0 20 60 80 100 120 lt App 1 dQ_PAH_13 AM PAH200s48 TDK Lambda PAH200S48 lt ii lt
199. OO gt 100 Radj down 2 ka Radj down 1000 100 Radj down kQ 0 10 20 30 40 2 3 1 2 2 1 2 2 TRM S Radj up TDK Lambda TRM S 2 4 2 2 3 Vo 100 6 Radj up 1 225 ko Vo Radj up 10000
200. POSITIVE H ON L OFF V NEGATIVE H OFF L ON PV POSITIVE H ON L OFF PAH75D24 3325 PV ON OFF d_PAH_22 PAH7sp24 TDK Lambda 4 12 7 0 25 5 08 0 5 2 57 9 max EE max 48 48 3 0 5 S vs o Vo2 Vin 6 7 62 10 16 o Vo2 CAsSE o 2 Te 1524 EE 10 16 5 sm o Vo1 10 16 o vol vin _o 0 1 12 74 i 1 1 1 2
201. Po1 Po2 60 Po1 Po2 75 C2 2 5 mV 6 6 10 6 6 6 mV 16 5 25 16 5 0 02 C 4 ImVpp 100 75 100 C3 10 7 105 165 105 165 105 165 105 165 CH2 0A CH1 5A CH2 OA CH1 5A aa 115 140 i ON OFF 9 C 40 100 40 C 40 100 40 RH 30 95 RH 30 95 PAH 10 55Hz 1 0 825mm 49 0m s2 X Y Z 1 196 1m s2 10 1 5kVDC 1 1 5kVDC 20mA 1
202. S Radj down V O S TRM Radj down S 2 2 1 1 3 100 Radi down 2 Jka Radj down 1000 p 100 Radi down kQ 0 20 30 40 2 3 1 2 2 1 2 2 TRM S Radj up S TRM S 2 4 2 2 3 Vo 100 100 2X 1 225 Radjtup oi TDK Lambda Vo
203. S Vin V D 1 2 1 Vin Vin Vin Vin PAH450S48 30A Qd_PAH_55 NMFX AM i PAH PAH 450sS48 C1 100uF Vin Vin 2 C1
204. u F 28V 50V 220 yu F 1 1 C4 1 LXY 2 20 3 3 A AM NMFX d_ PAH_47 AM i PAH PAH300S48 350S48 C5 0 1kuF V V 50mm C6 PAH300 350S348
205. 0C 4 C2 C3 0 022 uF V MS V M3 V V V V M3 M3 C2 C3 C4 V V 50mm
206. 8 3 3 35A PAH150S48 3 3 60A PAH200H48 3R3 5V 10 0A PAH50S48 5 15 0A PAH75S48 5 20 0A PAH100S48 5 30A PAH150S48 5 12V 4 2A PAH50S48 12 6 3A PAH75S48 12 8 4A PAH100S48 12 12 5A PAH150S48 12 16 7A PAH200S48 12 15V 3 4A PAH50S48 15 5A PAH75S48 15 6 7A PAH100S48 15 10A PAH150S48 15 13 4A PAH200S48 15 24V 2 1A PAH50S48 24 3 2A PAH75S48 24 4 2A PAH100S48 24 6 3A PAH150S48 24 8 4A PAH200S48 24 28V 1 8A PAH50S48 28 2 7A PAH75S48 28 3 6A PAH100S48 28 5 4A PAH150S48 28 7 2A PAH200S48 28 48V 3 2A PAH150S48 48 PAH200H PAH75D 5W 18V 15 0A 15 0A 2 5V 15A 15 0A 15 0A 33V 15A 1PAH75D24 3325 Hex PAH75D24 5033 PAH75D48 2518 alPAH75D483 3118 AlPAH75D48 3325 aoa PAH75D48 5033 5V 15A 15 0A _ _ _ veb140409
207. AH sERiEs 50 450W TDK Lambda PAH200S PAH300S PAH350S PAH450S _ PAH75D PAH200H ULeOg50 1 EN60850 1 BSI CSA C22 2 No60950 1 R 61x12 7x57 9mm 450W 92 PAH450S48 40 100C PAH200H gt PAH200H PAH75D INI3 F A PAH S24 24VDC PAH 75D 48 5033 24 24V 48 48V D S RoHS EU Directive 2002 95 EC
208. F 1000 Radi up KQ 100 10 20 2 5 2 E S JEITA 9141 7 12 7 13 3 1 V V M3 C2 C3 0 022F 50mm C4 1 1 C5 0 1F C5 3 1 JEITA 100MHz
209. M aa PAH d_PAH_30 Vin O TV e yrI Vin V CASE ON OFF TRM CNTO s 28V 400kHz typ 48V 460kHz typ mm 1 ON OFF L ek 1 1 1 a ovp OCP OCP 0 a 1 OFF ON OFF ON ON OFF 1 4
210. P OVP OVP OTP 105C 130C 80 C 95 8 S
211. PAH_40 PAH 50s48 200S48 TDK Lambda 1 4 ee f 16 le 6 Go PAH300S 4 350S 4 dPAH_ 33 Go PAH300S48 350S48 dPAH _ 46 GO PAH450S48 d PAH_54 GO PAH75D d PAH_B3 GO PAH20OH S d PAH_68
212. a PAH200S48 1000uF 470uF i a Mi PAH150S48 2200uF 470uF 220uF 330uF PAH100S48 2200uF 470uF 220uF 2 5VI3 3V 5V 12V 15v 24V 28V 48V PAH75S48 2200uF 470uF 220uF PAH200S48 250V 15A PAH50S48 2200uF 470uF 220uF PAH150S48 250V 10A PAH PAH100S48 250V 7A PAH75S48 250V 5A 40C 100 PAH50S48 250V 5A 2 5V 3 3V 5V 12V 15V 24V 28V 48v 2 C1 PAH200S48 1000uFx2 470uFx2 PAH150S48 2200uFx2 470uFx2 220uFx2 330uFx2 ME a 3 ie PAH100S48 2200uFx2 470uF2 220uFx2 C1 ex PAH75S48 2200uFx2 470uFX2 220uFX2 PAH50S4 2200uFx2 470uFx2 220uFx2 KMF 50S48 00uFx2 OuFx2 220uFx2 5 C4 C1 eo a C4 20 1000 100V 33uF C4
213. n OV RS 1 OVP Vout 4 0 i 100ms 1 1 1 H H ON OFF 1 a ht 4 He gt gt a OVP OCP OCP OFF ON OFF ON ON OFF 1 4 35 V 0 L 0 8 V d PAH_ 29 PAH450s4g TDK Lambda A
214. pp 1 E d PAH_7 AM PAH75s48 TDK Lambda PAH75S48 lt lt lt PAH75848 25 PAH75S48 3 3 PAH75S48 5 PAH75S48 12 PAH75S48 15 PAH75S48 24 PAH75S48 28 V DC36 76 typ 1 76 79 83 85 87 typ 1 A 1 20 1 52 1 88 1 85 1 84 1 81 VDC 2 5 3 3 5 12 15 24 28 A 0 A 17 5 15 0 6 3 5 3 2 2 7 W 43 75 57 75 75 0 75 6 75 0 76 8 75 6 1 1 6 _C4 C12 mV 10 24 30 48 56 C5 C12 mV 10 24 30 48 56 0 02 C 20 lt 100C 3 ImVpp 150 200 240 280 40 lt 20C 3 mVpp 300 250 300 350 2 10 15 40 10 40
215. v s PAH a TRM S5 V EE ON ODFF CNT ON OFF ON OFF Negative Logic Positive Logic 2 ON OFF 1 CNT 2 CNT V CNT H 2V HS7V OFF L V Negative Loglc 0VSL 1V ON P H 2V SHS7V ON PV Positive Logic 0VSL 1V OFF CNT Vin CNT Vin

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