Semiconductors Parts begin by FB Page 1

FB :
FB

FB10 : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 10

FB1000 : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1000

FB1000L : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1000L

FB1001 : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1001

FB1001L : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1001L

FB1002 : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1002

FB1002L : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1002L

FB1004 : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1004

FB1004L : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1004L

FB1006 : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1006

FB1006L : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1006L

FB1008 : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1008

FB1008L : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1008L

FB1010 : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1010

FB1010L : IF(A) = 10 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FB 1010L

FB10R06KL4 :
FB 10 R 06 KL4

FB10R06KL4G :
FB 10 R 06 KL 4G

FB110 : Fire Blanket
FB 110

FB125-C1000G : 300 V, 1 A, Fast Recovery Glass Passivated Bridge Rectifier
FB 125-C 1000G

FB125-C1500G : 300 V, 1.5 A, Fast Recovery Glass Passivated Bridge Rectifier
FB 125-C 1500G

FB125-C1500RG : Fast Recovery Glass Passivated Bridge Rectifier
FB 125-C 1500 RG

FB15 : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 15

FB1500 : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1500

FB1500L : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1500L

FB1501 : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1501

FB1501L : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1501L

FB1502 : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1502

FB1502L : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1502L

FB1504 : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1504

FB1504L : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1504L

FB1506 : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1506

FB1506L : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1506L

FB1508 : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1508

FB1508L : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1508L

FB1510 : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1510

FB1510L : IF(A) = 15 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 1510L

FB15R06KL4 :
FB 15 R 06 KL4

FB180SA10 : 100V Single N-channel HexFET Power MOSFET in a SOT-227 (ISO) Package
FB 180 SA 10

FB2012A : Futurebus+ Central Arbitration Controller
FB 2012A

FB2012AA :
FB 2012 AA

FB2031 : FB2031; 9-bit Latched/registered/pass-thru Futurebus+ Transceiver
FB 2031

FB2031BB : FB2031; 9-bit Latched/registered/pass-thru Futurebus+ Transceiver
FB 2031 BB

FB2031BB/0001 : FB2031; 9-bit Latched/registered/pass-thru Futurebus+ Transceiver
FB 2031 BB/0001

FB2033 : FB2033; 8-bit Latched/registered/pass-thru Futurebus+ Universal Interface Transc
FB 2033

FB2033BB : FB2033; 8-bit Latched/registered/pass-thru Futurebus+ Universal Interface Transc
FB 2033 BB

FB2033BB/0001 : FB2033; 8-bit Latched/registered/pass-thru Futurebus+ Universal Interface Transc
FB 2033 BB/0001

FB2040A : FB2040A; 8-bit Futurebus+ Transceiver
FB 2040A

FB2040BB :
FB 2040 BB

FB2040BB : 8-bit Futurebus+ Transceiver
FB 2040 BB

FB2041 : FB2041; 7-bit Futurebus+ Transceiver
FB 2041

FB2041BB : FB2041; 7-bit Futurebus+ Transceiver
FB 2041 BB

FB2041BB/0001 : FB2041; 7-bit Futurebus+ Transceiver
FB 2041 BB/0001

FB20R06KL4 :
FB 20 R 06 KL4

FB25 : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 25

FB250-C1000G : 600 V, 1 A, Fast Recovery Glass Passivated Bridge Rectifier
FB 250-C 1000G

FB250-C1500G : 600 V, 1.5 A, Fast Recovery Glass Passivated Bridge Rectifier
FB 250-C 1500G

FB250-C1500RG : Fast Recovery Glass Passivated Bridge Rectifier
FB 250-C 1500 RG

FB2500 : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2500

FB2500L : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2500L

FB2501 : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2501

FB2501L : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2501L

FB2502 : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2502

FB2502L : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2502L

FB2504 : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2504

FB2504L : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2504L

FB2506 : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2506

FB2506L : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2506L

FB2508 : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2508

FB2508L : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2508L

FB2510 : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2510

FB2510L : IF(A) = 25 ;; Ifsm (A) = 300 ;; VRRM (V) = 50 1000
FB 2510L

FB330/15 : Transformer Toroid 330va 2x 18v
FB 330/15

FB35 : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 35

FB3500 : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3500

FB3500L : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3500L

FB3501 : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3501

FB3501L : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3501L

FB3502 : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3502

FB3502L : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3502L

FB3504 : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3504

FB3504L : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3504L

FB3506 : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3506

FB3506L : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3506L

FB3508 : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3508

FB3508L : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3508L

FB3510 : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3510

FB3510L : IF(A) = 35 ;; Ifsm (A) = 400 ;; VRRM (V) = 50 1000
FB 3510L

FB380-C1000G : 900 V, 1 A, Fast Recovery Glass Passivated Bridge Rectifier
FB 380-C 1000G

FB380-C1500G : 900 V, 1.5 A, Fast Recovery Glass Passivated Bridge Rectifier
FB 380-C 1500G

FB380-C1500RG : Fast Recovery Glass Passivated Bridge Rectifier
FB 380-C 1500 RG

FB4 : Axial Lead Rectifiers<<<>>>Up to 250 nanosec. max recovery<<<>>>Exceptionally lo
FB4

FB40 : Fast Recovery Glass Passivated Bridge Rectifiers
FB 40

FB40-C1000G : 100 V, 1 A, Fast Recovery Glass Passivated Bridge Rectifier
FB 40-C 1000G

FB40-C1500G : 100 V, 1.5 A, Fast Recovery Glass Passivated Bridge Rectifier
FB 40-C 1500G

FB40-C1500RG : Fast Recovery Glass Passivated Bridge Rectifier
FB 40-C 1500 RG

FB5 :
FB5

FB5 : Axial Lead Rectifiers<<<>>>Up to 250 nanosec. max recovery<<<>>>Exceptionally lo
FB5

FB50 : IF(A) = 50 ;; Ifsm (A) = 500 ;; VRRM (V) = 50 600
FB 50

FB5000 : IF(A) = 50 ;; Ifsm (A) = 500 ;; VRRM (V) = 50 600
FB 5000

FB5001 : IF(A) = 50 ;; Ifsm (A) = 500 ;; VRRM (V) = 50 600
FB 5001

FB5002 : IF(A) = 50 ;; Ifsm (A) = 500 ;; VRRM (V) = 50 600
FB 5002

FB5003 : IF(A) = 50 ;; Ifsm (A) = 500 ;; VRRM (V) = 50 600
FB 5003

FB5004 : IF(A) = 50 ;; Ifsm (A) = 500 ;; VRRM (V) = 50 600
FB 5004

FB5005 : IF(A) = 50 ;; Ifsm (A) = 500 ;; VRRM (V) = 50 600
FB 5005

FB5006 : IF(A) = 50 ;; Ifsm (A) = 500 ;; VRRM (V) = 50 600
FB 5006

FB64P : Fire Blanket
FB 64P

FB650 : Description = Xinger Femto Balun Transformers ;; Size LXWXH = N/a ;; Packaging =
FB 650

FB80-C1000G : 200 V, 1 A, Fast Recovery Glass Passivated Bridge Rectifier
FB 80-C 1000G

FB80-C1500G : 200 V, 1.5 A, Fast Recovery Glass Passivated Bridge Rectifier
FB 80-C 1500G

FB80-C1500RG : Fast Recovery Glass Passivated Bridge Rectifier
FB 80-C 1500 RG

FB850 : Description = Xinger Femto Balun Transformers ;; Size LXWXH = 0.120 X 0.120 X 0.
FB 850

FBA50CA45 :
FBA 50 CA 45

FBA50CA50 :
FBA 50 CA 50

FBA75CA45 :
FBA 75 CA 45

FBA75CA50 :
FBA 75 CA 50

FBAV19 : Discrete, Diodes, Standard
FBAV 19

FBAV19...21Series : Discrete, Diodes, Standard
FBAV 19...21 Series

FBAV20 : Discrete, Diodes, Standard
FBAV 20

FBAV21 : Discrete, Diodes, Standard
FBAV 21

FBE22-06N1 : Fast Single Phase Rectifier Bridge in ISOplus 14-pac(tm)
FBE 22-06 N1

FBF325 : FC (MHz) = 114.99 ;; Min B (dB) = -0.5 ;; Min B (MHz) = 1.4 ;; Max B (dB) = -55.
FBF 325

FBF331 : FC (MHz) = 160.0 ;; Min B (dB) = -1.5 ;; Min B (MHz) = 1.18 ;; Max B (dB) = -30.
FBF 331

FBF332 : FC (MHz) = 150.0 ;; Min B (dB) = -0.5 ;; Min B (MHz) = 1.18 ;; Max B (dB) = -30.
FBF 332

FBF334 : FC (MHz) = 70.0 ;; Min B (dB) = ;; Min B (MHz) = 1.26 ;; Max B (dB) = -50.0 ;; M
FBF 334

FBG403 : FC (MHz) = 70.0 ;; Min B (dB) = -3.0 ;; Min B (MHz) = 1.3 ;; Max B (dB) = -50.0
FBG 403

FBI1.5-4S1 : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI 1.5-4 S1

FBI1.5-5S2 : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 100 1000
FBI 1.5-5 S2

FBI1.5A : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI 1.5A

FBI1.5B : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI 1.5B

FBI1.5D : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI 1.5D

FBI1.5F : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 100 1000
FBI 1.5F

FBI1.5G : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI 1.5G

FBI1.5J : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI 1.5J

FBI1.5K : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI 1.5K

FBI1.5L : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 100 1000
FBI 1.5L

FBI1.5M : IF(A) = 1.5 ;; Ifsm (A) = 50 ;; VRRM (V) = 50 1000
FBI 1.5M

FBI10A : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10A

FBI10A7M1 : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10 A 7 M1

FBI10B : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10B

FBI10B7M1 : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10 B 7 M1

FBI10D : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10D

FBI10D7M1 : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10 D 7 M1

FBI10G : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10G

FBI10G7M1 : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10 G 7 M1

FBI10J : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10J

FBI10J7M1 : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10 J 7 M1

FBI10K : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10K

FBI10K7M1 : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10 K 7 M1

FBI10M : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10M

FBI10M7M1 : IF(A) = 10 ;; Ifsm (A) = 170 ;; VRRM (V) = 50 1000
FBI 10 M 7 M1

FBI15A : IF(A) = 15 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FBI 15A

FBI15B : IF(A) = 15 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FBI 15B

FBI15D : IF(A) = 15 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FBI 15D

FBI15G : IF(A) = 15 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FBI 15G

FBI15J : IF(A) = 15 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FBI 15J

FBI15K : IF(A) = 15 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FBI 15K

FBI15M : IF(A) = 15 ;; Ifsm (A) = 200 ;; VRRM (V) = 50 1000
FBI 15M

FBI2.5A : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5A

FBI2.5A1M1 : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5 A 1 M1

FBI2.5B : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5B

FBI2.5B1M1 : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5 B 1 M1

FBI2.5D : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5D

FBI2.5D1M1 : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5 D 1 M1

FBI2.5G : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5G

FBI2.5G1M1 : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5 G 1 M1

FBI2.5J : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5J

FBI2.5J1M1 : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5 J 1 M1

FBI2.5K : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5K

FBI2.5K1M1 : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5 K 1 M1

FBI2.5M : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5M

FBI2.5M1M1 : IF(A) = 2.5 ;; Ifsm (A) = 100 ;; VRRM (V) = 50 1000
FBI 2.5 M 1 M1

FBI2A : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2A

FBI2A4S1 : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2 A 4 S1

FBI2B : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2B

FBI2B4S1 : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2 B 4 S1

FBI2B5S2 : IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI 2 B 5 S2

FBI2D : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2D

FBI2D4S1 : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2 D 4 S1

FBI2D5S2 : IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI 2 D 5 S2

FBI2F : IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI 2F

FBI2F5S2 : IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI 2 F 5 S2

FBI2G : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2G

FBI2G4S1 : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2 G 4 S1

FBI2J : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2J

FBI2J4S1 : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2 J 4 S1

FBI2J5S2 : IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI 2 J 5 S2

FBI2K : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2K

FBI2K4S1 : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2 K 4 S1

FBI2L : IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI 2L

FBI2L5S2 : IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI 2 L 5 S2

FBI2M : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2M

FBI2M4S1 : IF(A) = 2 ;; Ifsm (A) = 60 ;; VRRM (V) = 50 1000
FBI 2 M 4 S1

FBI2M5S2 : IF(A) = 2 ;; Ifsm (A) = 100 ;; VRRM (V) = 100 1000
FBI 2 M 5 S2

FBI3.7B : IF(A) = 3.7 ;; Ifsm (A) = 150 ;; VRRM (V) = 100 1000
FBI 3.7B

FBI3.7B-1M1 : IF(A) = 3.7 ;; Ifsm (A) = 150 ;; VRRM (V) = 100 1000
FBI 3.7 B-1 M1

FBI3.7D : IF(A) = 3.7 ;; Ifsm (A) = 150 ;; VRRM (V) = 100 1000
FBI 3.7D

FBI3.7D-1M1 : IF(A) = 3.7 ;; Ifsm (A) = 150 ;; VRRM (V) = 100 1000
FBI 3.7 D-1 M1

FBI3.7F : IF(A) = 3.7 ;; Ifsm (A) = 150 ;; VRRM (V) = 100 1000
FBI 3.7F

 
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