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ISL12025IBZ Intersil Corporation Real-Time Clock/Calendar with I<sup>2</sup>C Bus™ and EEPROM; SOIC8, TSSOP8; Temp Range: -40° to 85°C visit Intersil Buy
ISL12025IVZ Intersil Corporation Real-Time Clock/Calendar with I<sup>2</sup>C Bus™ and EEPROM; SOIC8, TSSOP8; Temp Range: -40° to 85°C visit Intersil Buy
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ISL12025IVZ-T Intersil Corporation Real-Time Clock/Calendar with I<sup>2</sup>C Bus™ and EEPROM; SOIC8, TSSOP8; Temp Range: -40° to 85°C visit Intersil Buy
TPA2025D1YZGT Texas Instruments 2W Constant Output Class-D Audio Amplifier with Adaptive Boost (DC/DC) Converter 12-DSBGA -40 to 85 visit Texas Instruments
TPA2025D1YZGR Texas Instruments 2W Constant Output Class-D Audio Amplifier with Adaptive Boost (DC/DC) Converter 12-DSBGA -40 to 85 visit Texas Instruments Buy

ICL 2025

Catalog Datasheet MFG & Type PDF Document Tags

COIL CLAMPING DIODE

Abstract: High voltage ignition coil driver will begin its action reducing the Icl limit according with the power dissipation. Chip temperature is , 0.017 0.029 1.5 1.3 10.16 5.08 15.8 16.2 20.25 19.10 22.8 34.9 4.85 0.622 MAX
STMicroelectronics
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icl 2025

Abstract: 2005A ( ( (-)97( max unit 00.1 uA 00.5 0138 R1 R1/R2 )10mA,IB=(-)0.5mA )10uA,IE=0 )100uA,RBE=oo =(-)5V,Ic=l , '¢ 5, U4.0*J D: Drain G : Gate S : Source Case Outline-[2025] unit: mm 6 i o -4â'"i+ .0.95 a9S
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VB020

Abstract: transistor ignition circuit V 150 Vin = 0.4 V Driver Stage Supply Voltage Icl Typ. 320 5 Functional Test , 0.039 0.039 0.059 0.051 0.400 0.200 15.8 16.2 0.622 0.637 9 0.354 20.25
STMicroelectronics
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ICL 2025

Abstract: VB020 ) Control Circuit S tan d -by Current Vs ld(on) Id(stand-by) Vd Icl Control Circuit Supply V oltage D river , 0.017 0.029 inch TYP. MAX. 0.222 0.149 0.122 0.081 0.039 0.039 1.5 1.3 10.16 5.08 15.8 9 20.25
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mip 836

Abstract: ICL 2025 2.075 2.095 V 0 0 0 0 1 2.004 2.025 2.045 V 0 0 0 1 0 1.955 1.975 1.994 V 0 0 0 1 1 1.905 1.925 1.944 , : Vth(min) â'ž . â'ž 55mV Rsense(max) = Icl(min) ^ Rsense x 1.29= U2A => Rsense x 1-29 = 3.87mQ = , 3.3mV = 58.3mV a Nominal Current Limit Setpoint Vth(typ) = 76mV. Vth(typ) Icl(NOM) = rsense(nom) Maximum Current Limit Setpoint 76mV Therefore, Icl(nom) = 3mQ = 25.3A Vth(max) = HOmV. Therefore, Icl , overload condition through a 3mQ embedded PCB trace is: 14.2A < Icl < 51.6A, with 25.3A being the nominal
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ICL 2025

Abstract: ICL 2025 SCHEMATIC DIAGRAM 2.125 2.075 2.025 1.975 1.925 1.0 3.560 3.459 3.358 3.257 3.156 3.055 2.954 2.853 2.752 2.651 2.550 , : RSENSE(MAX) = VTH(MIN) 55mV RSENSE × 1.29 = ICL(MIN) 14.2A ISENSE and VFB pins. These are needed for , 76mV. ICL(NOM) = VTH(TYP) RSENSE(NOM) Maximum Current Limit Setpoint Therefore , ICL(NOM) = VTH(MAX) = 110mV. Therefore, ICL(MAX) = 110mV RSENSE(MIN) = 76mV 3m = 25.3A RSENSE(NOM) = Therefore , condition through a 3m embedded PCB trace is: 14.2A < ICL < 51.6A, with 25.3A being the nominal overload
ON Semiconductor
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1994-V0

Abstract: 3103S 0 1 2.004 2.025 2.045 V 0 0 0 1 0 1.955 1.975 1.994 V 0 , limit setpoint: RSENSE(MAX) = VTH(MIN) 55mV RSENSE × 1.29 = ICL(MIN) 14.2A RSENSE × 1.29 = , Nominal Current Limit Setpoint VTH(TYP) = 76mV. ICL(NOM) = VTRIP(NOM) = 76mV + (30µA × 510) ­ (3.3K × , Setpoint Therefore , ICL(NOM) = 76mV 3m = 25.3A VTRIP(MAX) = 110mV + (50µA × 510) = 110mV + , : 58.3mV RSENSE(MAX) = = 4.1m 14.2A Therefore, ICL(MAX) = 110mV RSENSE(MIN) = 110mV 110mV
Cherry Semiconductor
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ICL 2025 SCHEMATIC DIAGRAM

Abstract: ICL 2025 3.425 3.325 3.225 3.125 3.025 2.925 2.825 2.725 2.625 2.525 2.425 2.325 2.225 2.125 2.075 2.025 1.975 , : RSENSE(MAX) = VTH(MIN) 55mV RSENSE × 1.29 = ICL(MIN) 14.2A ISENSE and VFB pins. These are needed for , 76mV. ICL(NOM) = VTH(TYP) RSENSE(NOM) Maximum Current Limit Setpoint Therefore , ICL(NOM) = VTH(MAX) = 110mV. Therefore, ICL(MAX) = 110mV RSENSE(MIN) = 76mV 3m = 25.3A RSENSE(NOM) = = 3.18m , overload condition through a 3m embedded PCB trace is: 14.2A < ICL < 51.6A, with 25.3A being the nominal
ON Semiconductor
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ICL 2025

Abstract: ICL 2025 SCHEMATIC DIAGRAM 2.125 2.075 2.025 1.975 1.925 1.0 3.560 3.459 3.358 3.257 3.156 3.055 2.954 2.853 2.752 2.651 2.550 , VTH(MIN) 55mV RSENSE × 1.29 = ICL(MIN) 14.2A ISENSE and VFB pins. These are needed for proper , 76mV. ICL(NOM) = VTH(TYP) RSENSE(NOM) Maximum Current Limit Setpoint Therefore , ICL(NOM) = VTH(MAX) = 110mV. Therefore, ICL(MAX) = 110mV RSENSE(MIN) = 76mV 3m = 25.3A RSENSE(NOM) = = 3.18m , overload condition through a 3m embedded PCB trace is: 14.2A < ICL < 51.6A, with 25.3A being the nominal
ON Semiconductor
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ICL 2025 SCHEMATIC DIAGRAM

Abstract: ICL 2025 2.075 2.025 1.975 1.925 1.0 3.560 3.459 3.358 3.257 3.156 3.055 2.954 2.853 2.752 2.651 2.550 2.449 , : RSENSE(MAX) = VTH(MIN) 55mV RSENSE × 1.29 = ICL(MIN) 14.2A ISENSE and VFB pins. These are needed for , 76mV. ICL(NOM) = VTH(TYP) RSENSE(NOM) Maximum Current Limit Setpoint Therefore , ICL(NOM) = VTH(MAX) = 110mV. Therefore, ICL(MAX) = 110mV RSENSE(MIN) = 76mV 3m = 25.3A RSENSE(NOM) = Therefore , condition through a 3m embedded PCB trace is: 14.2A < ICL < 51.6A, with 25.3A being the nominal overload
ON Semiconductor
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233kHz

Abstract: schematic diagram 24V to 19V converter 2.075 2.025 1.975 1.925 1.0 3.560 3.459 3.358 3.257 3.156 3.055 2.954 2.853 2.752 2.651 2.550 2.449 , VTH(MIN) 55mV RSENSE × 1.29 = ICL(MIN) 14.2A ISENSE and VFB pins. These are needed for proper , 76mV. ICL(NOM) = VTH(TYP) RSENSE(NOM) Maximum Current Limit Setpoint Therefore , ICL(NOM) = VTH(MAX) = 110mV. Therefore, ICL(MAX) = 110mV RSENSE(MIN) = 76mV 3m = 25.3A RSENSE(NOM) = = 3.18m , overload condition through a 3m embedded PCB trace is: 14.2A < ICL < 51.6A, with 25.3A being the nominal
Cherry Semiconductor
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1994-V0

Abstract: 1893 2.004 2.025 2.045 V 0 0 0 1 0 1.955 1.975 1.994 V 0 0 0 , ) 55mV RSENSE × 1.29 = ICL(MIN) 14.2A RSENSE × 1.29 = 3.87m RSENSE = 3m Minimum current , ) = 76mV. ICL(NOM) = VTRIP(NOM) = 76mV + (30µA × 510) ­ (3.3K × 0.1µA) = 76mV + 15.3mV ­ 0.33mV = , for current limit when RISENSE is used Maximum Current Limit Setpoint Therefore , ICL(NOM) = , 14.2A Therefore, ICL(MAX) = 110mV RSENSE(MIN) = 110mV 110mV = = 51.6A RSENSE × 0.71 3m ×
Cherry Semiconductor
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2615A

Abstract: 2.525 2.425 2.325 2.225 2.125 2.075 2.025 1.975 1.925 1.0 3.560 3.459 3.358 3.257 3.156 3.055 2.954 , VTH(MIN) 55mV Þ RSENSE ´ 1.29 = Þ ICL(MIN) 14.2A ISENSE and VFB pins. These are needed for proper , 76mV. ICL(NOM) = VTH(TYP) RSENSE(NOM) Maximum Current Limit Setpoint Therefore , ICL(NOM) = VTH(MAX) = 110mV. Therefore, ICL(MAX) = 110mV RSENSE(MIN) = 76mV 3m½ = 25.3A RSENSE(NOM) = = 3.18m , overload condition through a 3m½ embedded PCB trace is: 14.2A < ICL < 51.6A, with 25.3A being the nominal
Cherry Semiconductor
Original
Abstract: 2.125 2.075 2.025 1.975 1.925 1.0 3.560 3.459 3.358 3.257 3.156 3.055 2.954 2.853 2.752 2.651 2.550 , VTH(MIN) 55mV RSENSE × 1.29 = ICL(MIN) 14.2A ISENSE and VFB pins. These are needed for proper , 76mV. ICL(NOM) = VTH(TYP) RSENSE(NOM) Maximum Current Limit Setpoint Therefore , ICL(NOM) = VTH(MAX) = 110mV. Therefore, ICL(MAX) = 110mV RSENSE(MIN) = 76mV 3m = 25.3A RSENSE(NOM) = = 3.18m , overload condition through a 3m embedded PCB trace is: 14.2A < ICL < 51.6A, with 25.3A being the nominal Cherry Semiconductor
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dac 3014

Abstract: ICL 2025 SCHEMATIC DIAGRAM 2.125 2.075 2.025 1.975 1.925 1.0 3.560 3.459 3.358 3.257 3.156 3.055 2.954 2.853 2.752 2.651 2.550 , ) for the minimum current limit setpoint: RSENSE(MAX) = VTH(MIN) 55mV Þ RSENSE ´ 1.29 = Þ ICL(MIN) 14.2A , Current Limit Setpoint VTH(TYP) = 76mV. ICL(NOM) = VTH(TYP) RSENSE(NOM) Maximum Current Limit Setpoint Therefore , ICL(NOM) = VTH(MAX) = 110mV. Therefore, ICL(MAX) = 110mV RSENSE(MIN) = 76mV 3m½ = 25.3A , sense comparator to detect an overload condition through a 3m½ embedded PCB trace is: 14.2A < ICL
Cherry Semiconductor
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ICL 2025 SCHEMATIC DIAGRAM

Abstract: GW39NC60VD Figure 5) TBD TBD TBD nC nC nC ICL Turn-Off SOA Minimum Current Vclamp = 480V , Tj = , 40.50 4.85 20.25 2.1 0.835 0.783 0.929 1.673 0.207 0.817 0.091 0.181 - Weight : 4.9 g
STMicroelectronics
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Abstract: ™ºæŒ¯å'¨æ³¢æ•° 1 ãƒ'ッã'±ãƒ¼ã'¸ BR-G(*2) CL-2025 (3,000/Reel) (発注å˜ä½) ER-G(*3) CL , å'•ä½å'¨å›²æ¸©åº¦ 保存温度(*2) CL-2025 CL-2025-02 Topr Tstg - 40 ~ +85 â"ƒ - , '  8/22 IPFM ILx 0mA 図 IPFMâ'¡ XCL201/XCL202 ã'·ãƒªãƒ¼ã'º â å'•ä½èª¬æ˜ ï¼CL , ¼s/div 18/22 time:200μs/div XCL201/XCL202 ã'·ãƒªãƒ¼ã'º â å¤å½¢å¯¸æ³•å›³ ●CL-2025 (unit , ¾' F K 3.x CL-2025/CL-2025-02 L 4.x M マーã'¯â'¢ 出å›é›»å§ã®å°æ•°éƒ¨ã''表だTorex Semiconductor
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JTR2802-005 XCL201 XCL202 XCL201B/XCL202B

micronas ddp 3310

Abstract: FM H36 digitize the input signals. Each converter runs with 20.25 MHz and has 8 bit reso lution. An integrated , three channels, the system clock (20.25 MHz) is fractionally locked to the color subcarrier. This allows , magnitude frequency response Zoom 4:3 -> 4:3 Panorama 4:3 -> 4:3 non linear zoom 20.25 ->· 13.5 , clock regardless of the system clock (20.25 MHz) which is used for comb filter operation and color , , e.g. horizontal/vertical sync, active video out put, it is also the interface from the internal (20.25
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micronas ddp 3310 FM H36 CIP 8D Decoder Hp 4619 scw 82 DIGIT3000 6251-409-1PD 3201B 3211B D-79108 D-79008

3103S

Abstract: 1994-V0 0 0 0 0 2.054 2.075 2.095 V 0 0 0 0 1 2.004 2.025 2.045 , following guidelines: VTH(MIN) 55mV Þ RSENSE ´ 1.3 = Þ ICL(MIN) 14.2A ÆR = 12% @ TA = +50ûC ÆR = , overcurrent detection data section (pg 3), W= VTH(TYP) = 76mV. ICL(NOM) = VTH(TYP) RSENSE(NOM) Therefore , ICL(NOM) = 76mV 3m½ ILOAD 0.05 where: W = minimum width (in mils) required for , 110mV 110mV ICL(MAX) = RSENSE(MIN) = RSENSE ´ 0.7 = 3m½ ´ 0.7 = 52.4A L= Therefore, the range
Cherry Semiconductor
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CS5166 3103S 1994-V0 50 AMP MOSEFET D 1388 3596 3M 2N3904 CS-5166 MBRS120 F/10V 9410DY 4410DY

ICL 2025

Abstract: icl 2025 datasheet 1000 hours minimum, tested at +25C 1 01,02 1.0 % ICL (VIN - VOUT) = 5 V 4 01 , 10.41 10.67 F .035 .045 0.90 1.14 G1 .632 BSC G2 .2025 L1 .230 L2 , .2025 .2125 5.144 5.408 H .866 .906 22.00 23.01 L1 .055 .065 1.40
DEPARTMENT OF DEFENSE
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5962-1021301KZC ICL 2025 icl 2025 datasheet VRG8653 smd code marking NY smd regulator marking VA 5962-E166-10 MIL-PRF-38534 MIL-HDBK-103 QML-38534 5962-1021301KUA 5962-1021301KUC
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