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    icl 7108 Datasheets

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    TPS3847108DBVR Texas Instruments 380nA voltage monitor for 12V rails 5-SOT-23 -40 to 105 Visit Texas Instruments Buy
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    icl 7108 Datasheets Context Search

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    2006 - ICL 7108

    Abstract: ntc 100-9 thermistor K 2941 29736 B57820 B57820M0102A003 B57820M0561A005 B57820M0841A004 E69802 M820
    Text: 71.08 62.76 120.0 125.0 130.0 135.0 140.0 145.0 150.0 155.0 201.3 173.3 149.7 130.0 , 's surface temperature can be very high ( ICL ). Ensure that adjacent components are placed at a sufficient


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    PDF B57820 E69802) ICL 7108 ntc 100-9 thermistor K 2941 29736 B57820 B57820M0102A003 B57820M0561A005 B57820M0841A004 E69802 M820

    2010 - mip2k4

    Abstract: mip2k MIP2k40 MIP51
    Text: peak current * Channel temperature Storage temperature Symbol VD VCC VDD VFB IFB VCL ICL IDP Tch Tstg , current *2 CL pin hysteresis current *2 VCL ICL1 ICLHYS VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB: Open, ICL < ICL1 VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VD = 5 V, IFB = 20 mA, ICL = 50 mA VD = 5 V, IFB = 20 mA, ICL = 50 mA VD


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    PDF MIP2K40MS MarP01* MIP00* MIP55* MIP816/826 MIP50* MIP02* MIP52* MIP56* MIP51* mip2k4 mip2k MIP2k40 MIP51

    2010 - MIP2K2

    Abstract: MIP2K20 mip2*2 MIP2K20MS
    Text: peak current * Channel temperature Storage temperature Symbol VD VCC VDD VFB IFB VCL ICL IDP Tch Tstg , current *2 CL pin hysteresis current *2 VCL ICL1 ICLHYS VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB: Open, ICL < ICL1 VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VD = 5 V, IFB = 20 mA, ICL = 50 mA VD = 5 V, IFB = 20 mA, ICL = 50 mA VD


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    PDF MIP2K20MS MaP01* MIP00* MIP55* MIP816/826 MIP50* MIP02* MIP52* MIP56* MIP51* MIP2K2 MIP2K20 mip2*2 MIP2K20MS

    2010 - mip2k4

    Abstract: MIP2k40 MIP2K40MS mip2k MIP55 marking FB
    Text: pin current ICL 150 mA Output peak current * IDP 2.2 A Channel temperature , Symbol Conditions Min Typ Max Unit VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA 90 100 110 kHz VCC = 15 V, VD = 5 V, IFB: Open, ICL < ICL1 9 12 15 kHz , V, IFB = 20 mA, ICL = 50 mA 5.5 kHz Jitter frequency modulation rate fM VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA 260 Hz MAXDC VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL


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    PDF MIP2K40MS MIP803/804 MIP816/826 MIP51£ MIP55£ MIP50£ mip2k4 MIP2k40 MIP2K40MS mip2k MIP55 marking FB

    2010 - mip2k4

    Abstract: MIP2K MIP2K50MS MIP2 mip2k5 MIP9E MIP55 MIP9 MIP2K50M
    Text: Feedback current IFB 500 mA CL pin voltage VCL - 0.3 +8 V CL pin current ICL , Conditions Min Typ Max Unit VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA 90 100 110 kHz VCC = 15 V, VD = 5 V, IFB: Open, ICL < ICL1 9 12 15 kHz Control , 20 mA, ICL = 50 mA 5.5 kHz Jitter frequency modulation rate fM VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA 260 Hz MAXDC VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA


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    PDF MIP2K50MS MIP803/804 MIP816/826 MIP51£ MIP55£ MIP50£ mip2k4 MIP2K MIP2K50MS MIP2 mip2k5 MIP9E MIP55 MIP9 MIP2K50M

    2011 - icl 555

    Abstract: MIP554 ICL300
    Text: , ICL = ICLmax + 50 mA VDD = VDD(ON) + 0.1 V, VD = 5 V, VIN = 30 V, IEX = 0 mA, ICL = ICLmax + 50 mA VD = 5 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) - 0.2 V, VD = 5 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) + 0.1 V, VD = 5 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA, ILIMIT = ILIMITmin *Fig. 2 VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA *Fig. 2 Delta_IEX = IEXoff - IEXH VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA, IEX = 150 mA VDD = VDD(ON) + 0.1 V, ICL


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    PDF MIP5540MS O-220IPD7-A2 MIP554 MIP803/804 MIP52 MIP816/826 MIP55 MIP50 MIP51 icl 555 MIP554 ICL300

    2011 - MIP554

    Abstract: ICL300 MIP5540MS icl 555
    Text: , ICL = ICLmax + 50 mA VDD = VDD(ON) + 0.1 V, VD = 5 V, VIN = 30 V, IEX = 0 mA, ICL = ICLmax + 50 mA VD = 5 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) - 0.2 V, VD = 5 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) + 0.1 V, VD = 5 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA, ILIMIT = ILIMITmin *Fig. 2 VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA *Fig. 2 Delta_IEX = IEXoff - IEXH VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA, IEX = 150 mA VDD = VDD(ON) + 0.1 V, ICL


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    PDF MIP5540MS O-220IPD7-A2 MIP554 MIP00* MIP55* MIP816/826 MIP50* MIP02* MIP52* MIP56* MIP554 ICL300 MIP5540MS icl 555

    2010 - mip2k2

    Abstract: mip2k4 mip2*2 MIP2K20MS MIP2K20 marking aef mip2k MIP3 MIP9E MIP2
    Text: pin current ICL 150 mA Output peak current * IDP 0.95 A Channel temperature , Symbol Conditions Min Typ Max Unit VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA 90 100 110 kHz VCC = 15 V, VD = 5 V, IFB: Open, ICL < ICL1 9 12 15 kHz , V, IFB = 20 mA, ICL = 50 mA 5.5 kHz Jitter frequency modulation rate fM VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA 260 Hz MAXDC VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL


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    PDF MIP2K20MS MIP803/804 MIP816/826 MIP51£ MIP55£ MIP50£ mip2k2 mip2k4 mip2*2 MIP2K20MS MIP2K20 marking aef mip2k MIP3 MIP9E MIP2

    2010 - mip2k3

    Abstract: mip2k4 MIP2K30 MIP2K30MS mip2k MIP9E mip2*3 MIP2 MIP55 MIP9L
    Text: pin current ICL 150 mA Output peak current * IDP 1.5 A Channel temperature , Symbol Conditions Min Typ Max Unit VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA 90 100 110 kHz VCC = 15 V, VD = 5 V, IFB: Open, ICL < ICL1 9 12 15 kHz , V, IFB = 20 mA, ICL = 50 mA 5.5 kHz Jitter frequency modulation rate fM VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA 260 Hz MAXDC VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL


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    PDF MIP2K30MS MIP803/804 MIP816/826 MIP51£ MIP55£ MIP50£ mip2k3 mip2k4 MIP2K30 MIP2K30MS mip2k MIP9E mip2*3 MIP2 MIP55 MIP9L

    2010 - mip2k3

    Abstract: MIP2K30 MIP2K30MS MIP2K
    Text: peak current * Channel temperature Storage temperature Symbol VD VCC VDD VFB IFB VCL ICL IDP Tch Tstg , current *2 CL pin hysteresis current *2 VCL ICL1 ICLHYS VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB: Open, ICL < ICL1 VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VD = 5 V, IFB = 20 mA, ICL = 50 mA VD = 5 V, IFB = 20 mA, ICL = 50 mA VD


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    PDF MIP2K30MS MarP01* MIP00* MIP55* MIP816/826 MIP50* MIP02* MIP52* MIP56* MIP51* mip2k3 MIP2K30 MIP2K30MS MIP2K

    2010 - mip2k4

    Abstract: MIP2K50MS MIP2K
    Text: peak current * Channel temperature Storage temperature Symbol VD VCC VDD VFB IFB VCL ICL IDP Tch Tstg , CL pin hysteresis current *2 VCL ICL1 ICLHYS VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB: Open, ICL < ICL1 VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VCC = 15 V, VD = 5 V, IFB = 20 mA, ICL = 50 mA VD = 5 V, IFB = 20 mA, ICL = 50 mA VD = 5 V, IFB = 20 mA, ICL = 50 mA VD = 40 V


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    PDF MIP2K50MS MIP00* MIP55* MIP816/826 MIP50* MIP02* MIP52* MIP56* MIP51* MIP53* mip2k4 MIP2K50MS MIP2K

    2011 - MIP5530MD

    Abstract: MIP553MD MIP53 MIP553 traffic light using 68K TO-220IPD7-A2 triac applications circuit diagram for dimmer lamp
    Text: , IEX = 0 mA, ICL = ICLmax + 50 mA VD = 5 V, VIN = 50 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) - 0.2 V, VD = 5 V, VIN = 50 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) + 0.1 V, VD = 5 V, VIN = 50 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA, VIN = 50 V, ILIMIT = ILIMITmin *Fig. 2 VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA, VIN = 50 V *Fig. 2 VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA, IEX = 150 mA, VIN = 50 V VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA


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    PDF MIP5530MD O-220IPD7-A2 MIP553MD voltageP01* MIP00* MIP55* MIP816/826 MIP50* MIP02* MIP52* MIP5530MD MIP553MD MIP53 MIP553 traffic light using 68K TO-220IPD7-A2 triac applications circuit diagram for dimmer lamp

    2011 - Not Available

    Abstract: No abstract text available
    Text: demanding military and space applications. CURRENT LIMIT ( ICL ) The VRG8691/92 features internal current , Application Note 2). When the load current exceeds the ICL setting, the output of the VRG8691/92 will be , , VRIP = 1VP-P, VOUT = 3.3V VDROP IADJ IMIN ICL @VOUT = 1%, 0A < IOUT < 7.5A 0.5 % 0.2 %/V MIN 0.995 MAX , 2.5V 1.8V 1.0V R2 1k 1k 1k 1k R1 2.3k 1.5k 800 0 VIN 5V 3.3V 2.5V 1.8V Table 2 2/ ICL NOM 11.5A , / ICL varies directly with VIN. (See Application Note 2 for adjusting the Current Limit, ICL ). FIGURE


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    PDF VRG8691/92 SCD8691

    2011 - MIP553

    Abstract: MIP5530MD MIP553MD TO-220IPD7-A2 traffic light using 68K
    Text: , IEX = 0 mA, ICL = ICLmax + 50 mA VD = 5 V, VIN = 50 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) - 0.2 V, VD = 5 V, VIN = 50 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) + 0.1 V, VD = 5 V, VIN = 50 V, IEX = 0 mA, ICL = ICLmax + 50 mA VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA, VIN = 50 V, ILIMIT = ILIMITmin *Fig. 2 VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA, VIN = 50 V *Fig. 2 VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA, IEX = 150 mA, VIN = 50 V VDD = VDD(ON) + 0.1 V, ICL = ICLmax + 50 mA


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    PDF MIP5530MD O-220IPD7-A2 MIP553MD MIP553 MIP5530MD MIP553MD TO-220IPD7-A2 traffic light using 68K

    2002 - Ternary CAM

    Abstract: Silicon Access Networks
    Text: ( iCL ) coprocessor is a high-capacity, networking classification subsystem-on-a-chip that integrates , device. The iCL supports large multiple-field classification tables with additional features such as , . The iCL supports flexible key sizes from 144 to 432 bits and is ideal for a wide range of , available · Available now EXAMPLE APPLICATIONS PCI iCL iCL CPU iCL iCL iCL LVDS or ZBT , Input Fabric Framer or MAC Optics Networking ASIC Multiple iCL Line Card Configuration


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    PDF 9-18Mbit 216-bit 10Gbps Ternary CAM Silicon Access Networks

    Not Available

    Abstract: No abstract text available
    Text: LIMIT ( ICL ) The VRG8691/92 features internal current limiting making them virtually blowout-proof , exceeds the ICL setting, the output of the VRG8691/92 will be latched in an OFF state. To reset the latch , IADJ Minimum Load Current IMIN - 0 mA Current Limit 2/ ICL 9.5 13.5 A , Example R1 & R2 for typical VOUT VOUT R2 R1 VIN ICL NOM 3.3V 1k 2.3k 5V , NOT required). 2/ ICL varies directly with VIN. (See Application Note 2 for adjusting the Current


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    PDF VRG8691/92 Desig4585 SCD8691

    2013 - Not Available

    Abstract: No abstract text available
    Text: demanding military and space applications. CURRENT LIMIT ( ICL ) The VRG8691/92 features internal current , 5A, VIN = 4.3V, VRIP = 1VP-P, VOUT = 3.3V VDROP IADJ IMIN ICL @VOUT = 1%, 0A < IOUT < 7.5A MIN 0.985 , 3.3V 2.5V 1.8V 1.0V R2 1k 1k 1k 1k R1 2.3k 1.5k 800 0 VIN 5V 3.3V 2.5V 1.8V Table 2 2/ ICL NOM , / ICL varies directly with VIN. (See Application Note 2 for adjusting the Current Limit, ICL ). FIGURE , THE CURRENT LIMIT To Increase the Current Limit ( ICL ): VBIAS 0.1µF 4 VBIAS VIN 1µF CER


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    PDF VRG8691/92 SCD8691

    2010 - VRG8692-201-1S

    Abstract: VRG8692-7 VRG8692 5962-0923701KYA
    Text: ideal for demanding military and space applications. CURRENT LIMIT ( ICL ) The VRG8691/92 features , resistor (see Application Note 2). When the load current exceeds the ICL setting, the output of the VRG8691 , IADJ - 3 µA Minimum Load Current IMIN - 0 mA Current Limit 2/ ICL 9.5 , open. Table 2 2/ Table 1 Example R1 & R2 for typical VOUT VOUT R2 R1 VIN ICL NOM , control line is NOT required). 2/ ICL varies directly with VIN. (See Application Note 2 for adjusting


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    PDF VRG8691/92 SCD8691 VRG8692-201-1S VRG8692-7 VRG8692 5962-0923701KYA

    2010 - VRG8691

    Abstract: No abstract text available
    Text: Stability 2/ Supply Current (VBIAS) Thermal Resistance (Junction to Case) VDROP IADJ IMIN ICL SYM VREF , VREF (1+R1/R2) + (IADJ x R1) Typical Set-Up VREF R2 Setting Current Limit ( ICL ) ICL NOM = 75 X VIN 1/ 33 To increase or decrease ICL : R3 INC Increases ICL ICL ICL NOM + or R3 DEC Decreases ICL ICL ICL NOM Example To increases ICL by R3 INC = 75 X VIN 1/ 75 X VIN R3 INC 25 X VIN R3 DEC VIN 5V 3.3V 2.5V 1.8V ICL NOM 11.5A 7.5A 5.7A 4.1A Example To decrease ICL by R3 DEC = 25 X


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    PDF VRG8691/92 SCD8691 VRG8691

    Not Available

    Abstract: No abstract text available
    Text: applications. CURRENT LIMIT ( ICL ) The VRG8691/92 features internal current limiting making them virtually , Current IMIN - 0 mA Current Limit 2/ ICL 9.5 13.5 A Long Term Stability 3 , VOUT R2 R1 VIN ICL NOM 3.3V 1k 2.3k 5V 11.5A 2.5V 1k 1.5kï , , Figure 5 for the configuration where a separate ENABLE control line is NOT required). 2/ ICL varies directly with VIN. (See Application Note 2 for adjusting the Current Limit, ICL ). FIGURE 2 –SETTING


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    PDF VRG8691/92 SCD8691

    2014 - ADA4870

    Abstract: No abstract text available
    Text: 提供高输出功率、高速信号处理解决方案。 图2. 压摆率(VS = ±20 V,VOUT = 30 V p-p,AV = +2, RF = 1.5 kΩ ,CL = 300 pF,RS = , ¼ ±20 V电源 除非另有说明,TCASE = 25°C,AV = −5,RF = 1.21 kΩ,RG = 243 Ω ,CL = , ±5 V电源 除非另有说明,TCASE = 25°C,AV = −5,RF = 1.21 kΩ,RG = 243 Ω ,CL = 300 pF,RS , ¸©åº¦çš„关系(AV = −2,VS = ±20 V, VOUT = 20 V p-p,RF = 1.21 kΩ ,CL = 300 pF,RS = 5 Ω) 21 â , −2,VS = ±5 V, VOUT = 2 V p-p,RF = 1.21 kΩ ,CL = 300 pF,RS = 5 Ω) –20°C +25°C


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    PDF ADA4870 MO-166-AA 2-21-2011-A RR-20-1) ADA4870ARRZ ADA4870ARRZ-RL ADA4870ARR-EBZ D12125sc-0-5/14 RR-20-1 ADA4870

    dpm 001 tia

    Abstract: ICL7103 7555 timer NIXIE L4 1C03AC L71C03A CMOS 7555 icl 7555 2-Digit BCD Counter C-03A
    Text: ICL8052/ICL71C03, ICL8068/ ICL 71C03 A ug u st 1997 Features · Typically Less Than 2^Vp_p Noise , Procedures. Copyright © Harris Corporation 1997 _ File Number 3081.1 ICL8052/ ICL 71C03, ICL8068/ ICL , BUSY IN 3 1/2 DIGIT RANGE RANGE FIGURE 1. 3-35 ICL8052/ ICL 71C03, ICL8068/ ICL 71C03 Absolute , e n c y ra n g e in a syste m . 3-36 0 II 0 II ICL8052/ ICL 71C03, ICL8068/ ICL , 2 0 ,0 0 0 - 6 1 20 - V /V V /n s MHz mA 'sc 3-37 ICL8052/ ICL 71C03, ICL8068/ ICL


    OCR Scan
    PDF ICL8052/ICL71C03, ICL8068/ICL 71C03 ICL8068) 40ppm ICL71C03 200mV dpm 001 tia ICL7103 7555 timer NIXIE L4 1C03AC L71C03A CMOS 7555 icl 7555 2-Digit BCD Counter C-03A

    7555 timer

    Abstract: icl 7555 icl7103 CMOS 7555 71C03 ICL71C03ACPI standard cmos 4000 series AN023 BCD to Decimal decoder nixie ICL71C03CPI
    Text: Corporation 1997 File Number QQ7 7 7 5 b 45b 3081.1 3-34 ICL8052/ ICL 71C03, ICL8068/ ICL 71C03 , DIGIT RANGE RANGE 3-35 ICL8052/ ICL 71C03, ÌCL8068/ ÌCL 71C03 Absolute Maximum Ratings ICL8052 , on the clock frequency range in a system. 3-36 ICL8052/ ICL 71C03, ÌCL8068/ ÌCL 71C03 IC L 8 0 , V/ns MHz mA 'sc 3-37 ICL8052/ ICL 71C03, ÌCL8068/ ÌCL 71C03 ICL8052 Electrical , ) 3 15 2 5 3-38 ICL8052/ ICL 71C03, ICL8068/ ICL 71C03 System Electrical Specifications


    OCR Scan
    PDF ICL8052/ICL71C03, ICL8068/ICL71C03 ICL8052 ICL8068/ICL71C03 71C03 200mV 7555 timer icl 7555 icl7103 CMOS 7555 ICL71C03ACPI standard cmos 4000 series AN023 BCD to Decimal decoder nixie ICL71C03CPI

    2006 - LTC4085-1

    Abstract: No abstract text available
    Text: current limit is programmed as follows: ICL (A) = 1000V RCLPROG In USB applications the resistor , ) PROGRAMMING OUTPUT CURRENT BATTERY CURRENT INPUT CURRENT ICL = ICHG IOUT < ICL IOUT = ICL = ICHG IOUT > ICL IBAT = ICL – IOUT IBAT = 0 IBAT = ICL – IOUT IIN = IQ + ICL IIN = IQ + ICL IIN = IQ + ICL ICL > ICHG IOUT < ( ICL – ICHG) IOUT > ( ICL – ICHG) IOUT = ICL IOUT > ICL IBAT = ICHG IBAT = ICL – IOUT IBAT = 0 IBAT = ICL – IOUT IIN = IQ + ICHG + IOUT IIN


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    PDF LTC4085-1 500Fixed LTC4089-5) LTC4090 DFN-14 40851fa LTC4085-1

    2011 - DE14

    Abstract: LTC4085 LTC4085-3 LTC4085E-3 Si2333 NTC 50K 3950 NTC 4,8k temperature vs resistance
    Text: to output current limit. The current limit is programmed as follows: ICL (A) = 1000V RCLPROG , (Powered from IN) PROGRAMMING OUTPUT CURRENT BATTERY CURRENT INPUT CURRENT ICL = ICHG IOUT < ICL IOUT = ICL = ICHG IOUT > ICL IBAT = ICL ­ IOUT IBAT = 0 IBAT = ICL ­ IOUT IIN = IQ + ICL IIN = IQ + ICL IIN = IQ + ICL ICL > ICHG IOUT < ( ICL ­ ICHG) IOUT > ( ICL ­ ICHG) IOUT = ICL IOUT > ICL IBAT = ICHG IBAT = ICL ­ IOUT IBAT = 0 IBAT = ICL ­ IOUT IIN = IQ + ICHG + IOUT


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    PDF LTC4085-3 100mA 500mA) LTC4090 DFN-14 LTC4411/LTC4412 40853fa DE14 LTC4085 LTC4085-3 LTC4085E-3 Si2333 NTC 50K 3950 NTC 4,8k temperature vs resistance
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