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Top Results (6)

Part ECAD Model Manufacturer Description Datasheet Download Buy Part
DS91C180TMAX/NOPB DS91C180TMAX/NOPB ECAD Model Texas Instruments 100 MHz M-LVDS Line Driver/Receiver Pair 14-SOIC -40 to 85
DS91M124TMAX/NOPB DS91M124TMAX/NOPB ECAD Model Texas Instruments 125 MHz 1:4 M-LVDS Repeater with LVCMOS Input 16-SOIC -40 to 85
DS10CP152TMAX/NOPB DS10CP152TMAX/NOPB ECAD Model Texas Instruments 1.5 Gbps 2X2 LVDS Crosspoint Switch 16-SOIC -40 to 85
DS92001TMAX/NOPB DS92001TMAX/NOPB ECAD Model Texas Instruments 3.3V B/LVDS-BLVDS Buffer 8-SOIC -40 to 85
LMH0002TMAX/NOPB LMH0002TMAX/NOPB ECAD Model Texas Instruments SMPTE 292M / 259M Serial Digital Cable Driver 8-SOIC -40 to 85
DS91D176TMAX/NOPB DS91D176TMAX/NOPB ECAD Model Texas Instruments 100 MHz Single Channel M-LVDS Transceivers 8-SOIC -40 to 85

TMAX T1D 160 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
ABB TMAX T7

Abstract: TMAX T1D 160 SACE Bergamo ABB Sace Tmax T7D1600 TMAX PV abb ABB TMAX T1 1SDA066887R1 T1D 160 PV 4p F FC Cu 1100 V DC tmax t7
Text: Characteristics Tmax PV switch-disconnectors in compliance with the IEC60947-3 T1D PV T3D PV T4D PV , 1SDA066883R1 1SDA066884R1 1SDA066885R1 1SDA066886R1 1SDA066887R1 T1D 160 PV 4p F FC Cu 1100 V DC T3D , Product note Tmax PV: photovoltaic range T Generation The average generating capacity of , voltage switchdisconnector is required, Tmax PV moulded-case switchdisconnectors are suitable for the purpose. Tmax PV is the latest T Generation product: from 0 to 1600 A , up to 1100 V DC . Tmax PV


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PDF 1SDC210031L0202 ABB TMAX T7 TMAX T1D 160 SACE Bergamo ABB Sace Tmax T7D1600 TMAX PV abb ABB TMAX T1 1SDA066887R1 T1D 160 PV 4p F FC Cu 1100 V DC tmax t7
511K14D

Abstract: walsin 431k10d 561K14D 431K20D 681k10d 102k14E 431K10D 431K05D 431k07d 561K10D
Text: 26.0 29.0 36.5 H1max 10.0 12.0 17.0 20.5 24.0 28.0 34.0 Tmax 4.9 , 165 400 250 5 3.5 5.5 180 SR 181K05D 120 160 170 207 400 , 135 165 1200 250 10 6.5 9.7 400 SR 181K07D 120 160 170 207 , 14.0 250 SR 241K07D 150 200 216 264 1200 395 10 11.0 16.0 230 , 135 165 2500 250 25 16.0 22.0 1100 SR 181K10D 120 160 170 207


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PDF 18volt 100volt 1000volt 511K14D walsin 431k10d 561K14D 431K20D 681k10d 102k14E 431K10D 431K05D 431k07d 561K10D
PR221DS

Abstract: ABB T5N 630 PR221DS sace tmax dip switch setting PR221DS sace tmax T-max T3n 250 manual pr221ds ABB Sace Tmax PR221DS-LS IEC 60947-2 ABB SACE TMAX T2S 160 ABB ATS010 manual
Text: 250 3/4 20 40 400/630 3/4 20 40 T1D T3D T4D T5D 160 125 3/4 690 500 , cables Tmax T1 160 1 240 125 8 500 3000 B 25(*) ­ ­ ­ ­ 25 (at 125 V) ­ ­ ­ ­ B , Tmax T3 Tmax T4 Tmax T5 160 3/4 690 500 8 800 3000 250 3/4 690 500 8 800 3000 , Technical catalogue Tmax Low voltage moulded-case circuit-breakers up to 630 A Preliminary , GENERATION Tmax has grown. ABB SACE's experience in designing and manufacturing moulded-case


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PDF 1SDC210004D0203 PR021/K PR222DS/PD PR222MP PR212/CI PR222MP 1SDC210004D0203 PR221DS ABB T5N 630 PR221DS sace tmax dip switch setting PR221DS sace tmax T-max T3n 250 manual pr221ds ABB Sace Tmax PR221DS-LS IEC 60947-2 ABB SACE TMAX T2S 160 ABB ATS010 manual
ips 500w circuit diagram

Abstract: RF Amplifier 500w 175 mhz EL2073 EL2073C EL2073CN MIL-I-45208A bf170
Text: test plan QCX0002. 100% production tested at TA = 25°C and QA sample tested atTA = 25"C , tmax and , Conditions EL2073 EL2073C Vos Input Offset Voltage vCM = ov 25°C 0.2 1.5 I i mV tmin. tmax 3 I , All 2 6 i ii jxA io s Input Offset Current VCM = 0V 25°C 0.1 1 i I jxA tmin. tmax 2 I III , tmin. tmax 25 i m mA R1N (diff) rjm (Differential) Open-Loop 25°c 15 V V kil CIN (diff) cin , mft CMIR Common-Mode Input Range 25°C ±3 ±3.5 IV tv V tmin. TMAx ±2.5 IV IV V IoUT


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PDF 0GD216Ã EL2073/EL2073C 800e-18 810e-18 EL2073 ips 500w circuit diagram RF Amplifier 500w 175 mhz EL2073C EL2073CN MIL-I-45208A bf170
4707

Abstract: D001351
Text: 6 mV 8 TMin to ^Max Average Offset Voltage Drift Input Bias Current IB TMin to TMax Input , (db) = 20 log 1212 e ,N = r5 0 p F fe T T 2-135 V T C IN C T1D D


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PDF VA4707 150ns 300MHz VA4707 VA707 CL-50pF 100MHz 10MHz 100MHz 4707 D001351
74c164

Abstract: 74C165 DG73 UD73 ADC0819 ADC0819BCV V28A CH1810 928710 CH1201
Text: & z) Supply Voltage (Vcc) 4.5 VDc to 6.0 VDC Temperature Range TM|N s TA s TMAX ADC0819BCV , = 2.097 MHz unless otherwise specified. Boldface limits apply from TM|n to Tmax ; all other limits TA , to Tmax ; all other limits Ta = Tj = 25°c. 2.097 MHz unless otherwise specified. Boldface limits , from Tmin to Tmax : a" other limits Ta = Tj = 25°C. Parameter Conditions Typical (Note 6) Tested Limit , SEMICOND (LINEAR) Timing Diagrams (Continued) 5flE D CS High During Conversion bSQUHM 0073fltiB T1D «NSCH


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PDF 0G73flS7 ADC0819 19-Channel bSG1124 073flbb A0C0819 74C164 74C165 74C165 DG73 UD73 ADC0819BCV V28A CH1810 928710 CH1201
2716J

Abstract: No abstract text available
Text: 20 u V /°c T Min to ^Max Average Offset Voltage Drift Input Bias Current Ib T Min to T"Max Input , : Crosstalk Test Circuit Small Signal Response 2-74 V T C INC T1D D I TaaaTET t. 9388929


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PDF VA706 200ns 25MHz VA2716 theVA706 032-5M 2716J
MP7684JN

Abstract: ofw 369 MP7684KS MP7684 MP7684JS MP7684KN MP7684A MP7684JD MP7684KD MP7684SD
Text: 25°C 10 MHz (Duty Cycle: 1/3 Sample & 2/3 Balance), Parameter Symbol Min 25°C Typ Max Tmin to Tmax , Tmax Min Max Units Conditions DIGITAL OUTPUTS Cout=15 PF Logical "1" Voltage VOH 4.3 4.3 V , Data 3-state Delay2 ldhz 40 ns POWER SUPPLIES9 (Tmin to Tmax ) Operating Voltage (AVDD, DVdd , . 34E2blfl QQObTöl T1D 3-69 T<$}M This Material Copyrighted By Its Respective Manufacturer MP7684 ¡Â


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PDF MP7684 MP7684A MP7684 3M22blà MP7684JN ofw 369 MP7684KS MP7684JS MP7684KN MP7684JD MP7684KD MP7684SD
S125

Abstract: VA2715J VA2715K VA2715S VA705 6JCR
Text: V T C INC T1D D I 130015*1 □□□1572 2 9388929 V T C INC 99D 01272 VA2715 DUAL HIGH-SPEED PRECISION OPERATIONAL AMPLIFIER r-7?-07-to FEATURES • Complete Dual Version of VA705 Fast-Settling Op Amp • Dual Includes. Balance for Both Amplifiers • Fast Settling Time: ±0.1% in 2S0ns • High Slew Rate: 35V/ns • Wide Gain Bandwidth: 25MHz • Low Offset Voltage: 3mV • Minimal , Bias Current TMin to TMax IB 650 1100 650 900 650 900 nA 0° S"IA £70°C 1700 1400


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PDF VA2715 -07-to VA705 25MHz VA2715 DS032-5M8861 S125 VA2715J VA2715K VA2715S 6JCR
vtc amplifier 20 30 A

Abstract: No abstract text available
Text: PF pF HVRMS V/mV TMin to TMax SHEETS Input Offset Current Input Common Mode Range Differential , , consistent with the application. LSP FAM ILY DATA SHEETS 2-123 V T C INC T1D D | =1300^5^ Q G D 1 3


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PDF VA4705 T-1H-01-Z0 VA705 250ns 35V4is 25MHz VA4705 VA70S DS0M-5M9861 vtc amplifier 20 30 A
DS032

Abstract: MV-12NV BU 508 AF
Text: V T C IN C T1D D 1 ! 9388929 V T C IN C ^ 30012^ 0D D 12citJ 5 99D 01296 D VA2707 DUAL HIGH-SPEED, FAST-SETTLING, HIGH OUTPUT CURRENT OPERATIONAL AMPLIFIER, A q L S 12 FEATURES · Fast Settling Time: ±0.1% In 150ns · High Slew Rate: 105 V/jxs · Large Gain-Bandwidth: 300 MHz · Full Power Bandwidth: 5.6 MHz at 6V p-p · Ease Of Use: Internally Compensated for A qj_£ 12 · Minimal Crosstalk: >90dB , 120 2200 35 120 +3 +3.5 -4 -4.5 3 10 4 8 2 3 12 10 15 650 TMin to TMax Input Offset Current Input


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PDF 12citJ VA2707 150ns VA2707 VA707 DS032-5M8861 DS032 MV-12NV BU 508 AF
MC10EL16

Abstract: OP291 SPT7610 SPT7610SIQ SPT7760
Text: _ 0240117 □□□333Û T1D This Material Copyrighted By Its Respective Manufacturer ABSOLUTE MAXIMUM , Ta = Twin to Tmax , Vee=-5.2 V, Vrb=-1 .00 V, Vrm=-0.5 V, Vrt=0.00 V, fc)k=1000 MSPS, Duty Cycle , Ta = Tmin to Tmax , Vee=-5.2 V, Vrb=-1.00 V, VRM=-0.5 V, Vrt=0.00 V, fc|k=1000 MSPS, Duty Cycle


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PDF SPT7610 SPT7610 DDO33M7 MC10EL16 OP291 SPT7610SIQ SPT7760
PR221DS sace tmax

Abstract: RC222 LR54280 PR221DS ABB T5N 400 BREAKER ABB MCCB 160 ABB T5N 630 ABB MCCB SHUNT TRIP T1B 160 mccb PR221DS sace tmax dip switch setting
Text: 1P Tmax T1 Tmax T2 Tmax T3 160 3/4 690 225 3/4 690 Circuit breakers for , PR222/MP (IEC 60947-4-1) PR212/P-I PR212/MP (IEC 60947-4-1) T1D T3D 3/4 160 690 8 800 , , busbars or parts of a plant (MCS: Molded Case Switch) With the introduction of the new Tmax UL series, a , breaker at 480 V AC is guaranteed, even for the smallest Tmax T1 size. C O M PA C T D I M E N S I O N , in costs. * Except for Isomax S8. T GENERATION Tmax has grown. ABB experience in designing


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PDF 1SDC210018D0202 1SDC210018D0202 PR221DS sace tmax RC222 LR54280 PR221DS ABB T5N 400 BREAKER ABB MCCB 160 ABB T5N 630 ABB MCCB SHUNT TRIP T1B 160 mccb PR221DS sace tmax dip switch setting
2013 - PR221DS

Abstract: 1SCA0226 Thyristor T6N 1SDA051125R1 ABB inverter motor fault code 1SCA10 T-max T3n 250 ABB inverter motor fault abb motor encoder mounting 1sda01
Text: circuit breakers 23 Tmax switch disconnector T1D - Fixed (F), Icw (1s) = 2,2 kA T1D 160 F FC Cu , breakers 11 Tmax power distribution circuit breakers T2 In (A) T2S 160 F F Icu = 50KA, Ics = 100 , 93 Emax - Low voltage air circuit breakers 6 MCB S200M 96 Tmax moulded case circuit breakers 8 S200 M - MCBs, C Characteristics - 10 kA Tmax power distribution circuit-breakers 9 S280 series MCB 101 Tmax motor protection circuit breaker 19 S800 series MCB


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PDF CP/2014 CP/2012 PR221DS 1SCA0226 Thyristor T6N 1SDA051125R1 ABB inverter motor fault code 1SCA10 T-max T3n 250 ABB inverter motor fault abb motor encoder mounting 1sda01
1993 - analog b4a

Abstract: AD822 AD822AN AD822AR AD822AR-REEL MO-187-AA MS-001 AD822BR-REEL7 ad822arm-r2 AD822ARM-reel
Text: Offset Drift Input Bias Current At TMAX Input Offset Current At TMAX Open-Loop Gain Conditions Min TMIN to TMAX RL = 10 k TMIN to TMAX RL = 1 k TMIN to TMAX NOISE/HARMONIC PERFORMANCE , Crosstalk @ f = 100 kHz INPUT CHARACTERISTICS Input Voltage Range1, TMIN to TMAX Common-Mode Rejection Ratio (CMRR) TMIN to TMAX 0.1 0.5 2 2 0.5 2 0.5 VCM = 0 V to 4 V VOUT = 0.2 V to 4 V RL , TMAX VCC - VOH TMIN to TMAX VOL - VEE TMIN to TMAX VCC - VOH TMIN to TMAX VOL ­ VEE TMIN to


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PDF AD822 AD822to analog b4a AD822 AD822AN AD822AR AD822AR-REEL MO-187-AA MS-001 AD822BR-REEL7 ad822arm-r2 AD822ARM-reel
TST84

Abstract: MX7543 MX7543AD MX7543BD MX7543GKCWE MX7543GKN MX7543JCWE MX7543JN MX7543KCWE MX7543KN
Text: 'dh3 Ta = 25°C Tmin t0 TMAX 80 160 'dh4 Ta = 25°C Tmin Tmax 80 160 SRI data pulse width 'sri Ta = 25°C Tmin TMAX 80 160 ns STB1 pulse width fstb1 Ta = 25°C Tmin TMAX 80 160 STB2 pulse width *stb2 TA = 25°C TM,N "^MAX 80 160 STB3 pulse width *stb3 Ta = 25° C Tmin TMAX 100 200 STB4 pulse , t0 TMAX 80 160 'dH4 Ta = 25°C Tmin Tmax 80 160 SRI data pulse width 'sri Ta = 25°C Tmin TMAX 80 160 ns STB1 pulse width {stb1 Ta = 25°C Tmin t0 TMAX 80 160 STB2 pulse width 'stb2 Ta ~ 25Â


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PDF 12-Bit MX7543 01/yF TST84 MX7543AD MX7543BD MX7543GKCWE MX7543GKN MX7543JCWE MX7543JN MX7543KCWE MX7543KN
1996 - A2L MSOP-8

Abstract: AD820 AD820AN MO-187-AA MS-001 ad820a AD820ANZ
Text: TMAX Input Offset Current At TMAX Open-Loop Gain TMIN to TMAX Conditions Min 0.1 0.5 2 2 0.5 2 0.5 VCM = 0 V to 4 V VOUT = 0.2 V to 4 V RL = 100 k TMIN to TMAX 400 400 80 80 15 10 RL = 10 k TMIN to TMAX RL = 1 k NOISE/HARMONIC PERFORMANCE Input Voltage , Voltage Range 1 TMIN to TMAX CMRR TMIN to TMAX Input Impedance Differential Common Mode AD820A , TMIN to TMAX VCC - VOH TMIN to TMAX VOL - VEE TMIN to TMAX VCC - VOH TMIN to TMAX VOL - VEE


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PDF AD820 A2L MSOP-8 AD820 AD820AN MO-187-AA MS-001 ad820a AD820ANZ
7524

Abstract: MAX7624 MX7524 MX7524JCSE MX7524JN MX7524KCSE MX7524KN MX7524LCSE WIX7524LN
Text: Write Setup Time tes Ta = 25°C ta - tmin to Tmax c,e ta = tmin to tmax m 160 160 210 ns Chip Select to , 170 210 ns Data Setup Time tos Ta = 25°C ta ~ tmin to Tmax C,e ta = tmin ^ tmax m 160 160 210 ns , to + 160 <5C Power Dissipation (any Package} to +75°C . 450mW Derate Above +75° C by , Operation (Vdd = +5v; vref = +10V; VOUTl = V0UT2 = 0V; TA = TMIN to TMAX unless otherwise noted) VDD to , Gain Error (Note 1} Ta = 25° C ^A = TM|N to TMAX ±2 Vi ±3'/2 LSB Gain Temp Coefficient (Note 2, 3


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PDF MX7524 MAX7624 MX7524L/C/U MX7524, 7524 MX7524JCSE MX7524JN MX7524KCSE MX7524KN MX7524LCSE WIX7524LN
1998 - DH40AB

Abstract: k2828 AD775 AD876 AD9002 AD9054 AD9057 AD9280 AD9283 25P1024
Text: +25C Tmax +25C Tmax Single Supply: Pipelined AD775 AD876 AD9280 AD9283 AD9057 AD9283 AD9283 , 1PP 2PP 2PP ±0.5V 20 25 40 41 NS NS 10 160 250 130 AD6640 AD9432 12 +5/3.3V 160 /20 12 +5V 150 Vref ±0.5V ±1V 65 100 6.5 2 300 500 AD9240 14 2PP 20 , Voltage Lsb's Lsb's Lsb's Reference +25C Tmax +25C Tmax +25C Tmax INT EXT 50 DC 25 25 300 220 120 250 300 160 350 350 1 1/2 1 3/4 2 3/4 3/4 1 1 1/2 1 1/2 1/2 1.3 2 1/2 1


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PDF 20MSPS: AD775 AD876 AD9280 AD9283 AD9057 AD9002 AD9054 DH40AB k2828 AD775 AD876 AD9002 AD9054 AD9057 AD9280 AD9283 25P1024
1999 - MAX4604CSE

Abstract: No abstract text available
Text: Temperature Range .-65°C to + 160 °C Lead Temperature (soldering, 10sec , , VL = 5V, VIN_H = 2.4V, VIN_L = 0.8V, TA = TMIN to TMAX , unless otherwise noted. Typical values are at , _ or VNC_ = -5V, 0, 5V TA = +25°C TA = TMIN to TMAX TA = +25°C TA = TMIN to TMAX TA = +25°C TA = TMIN to TMAX -0.5 -2.5 -0.5 -2.5 -1 -5 0.02 0.01 0.01 0.2 0.2 V3 V+ 4 5 0.5 0.7 0.5 0.6 0.5 2.5 0.5 2.5 1 nA TA = TMIN to TMAX 5 nA nA V SYMBOL CONDITIONS MIN TYP (Note 2) MAX UNITS RON RFLAT(ON


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PDF MAX4604/MAX4605/MAX4606 MAX4604 MAX4604/MAX4605/MAX4606 MAX4604CSE
1996 - AD820

Abstract: AD820AN AD820AR AD820AR-3V AD820BN AD820BR ad820a
Text: 110 160 500 1000 1500 1900 20 15 45 TMIN to TMAX VS+ = 5 V to 15 V pF pF 10130.5 , Temperature Offset Drift Input Bias Current at TMAX Input Offset Current at TMAX Open-Loop Gain Conditions VO = 0.2 V to 4 V RL = 100k RL = 10k TMIN to TMAX RL = 1k TMIN to TMAX DYNAMIC , CHARACTERISTICS Common-Mode Voltage Range1 TMIN to TMAX CMRR TMIN to TMAX Input Impedance Differential Common Mode OUTPUT CHARACTERISTICS Output Saturation Voltage2 VOL­VEE TMIN to TMAX VCC­VOH TMIN to


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PDF AD820 14-Bit AD820 AD820AN AD820AR AD820AR-3V AD820BN AD820BR ad820a
1999 - MAX4604CSE

Abstract: N02 Transistor rf MAX460 MAX4604 MAX4604CPE MAX4604EPE MAX4604ESE MAX4605 MAX4606
Text: .-40°C to +85°C Storage Temperature Range .-65°C to + 160 °C Lead Temperature , CHARACTERISTICS-Dual Supplies (V+ = +15V, V- = -15V, VL = 5V, VIN_H = 2.4V, VIN_L = 0.8V, TA = TMIN to TMAX , unless , = TMIN to TMAX 4 V 5 TA = +25°C 0.2 0.5 0.7 TA = TMIN to TMAX COM , _) (Note 6) INO_, INC_ TA = +25°C VCOM_ = ±10V, ­ VNO_ or VNC_ = +10V TA = TMIN to TMAX -0.5 , TA = TMIN to TMAX -0.5 COM On-Leakage Current (Note 6) ICOM_(ON) VCOM_ = ±10V, VNO_ or


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PDF MAX4604/MAX4605/MAX4606 MAX4604 MAX4605 MAX4604/MAX4605/MAX4606 MAX4604CSE N02 Transistor rf MAX460 MAX4604CPE MAX4604EPE MAX4604ESE MAX4606
1998 - 5v 10mA reed relay

Abstract: N02 Transistor rf MAX4604 MAX4604CAE MAX4604CPE MAX4604CSE MAX4604EAE MAX4604EPE MAX4604ESE MAX4605
Text: Temperature Range .-65°C to + 160 °C Lead Temperature (soldering, 10sec , , VL = 5V, VIN_H = 2.4V, VIN_L = 0.8V, TA = TMIN to TMAX , unless otherwise noted. Typical values are at , VNC_ = ±10V ICOM_ = 10mA, VNO_ or VNC_= ±10V TA = +25°C 3 TA = TMIN to TMAX 4 V 5 TA = +25°C 0.2 0.5 0.7 TA = TMIN to TMAX COM_ to NO_ or NC_ On-Resistance , VCOM_ = ±10V, ­ VNO_ or VNC_ = +10V TA = TMIN to TMAX -0.5 COM Off-Leakage Current (Note 6


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PDF MAX4604/MAX4605/MAX4606 MAX4604 MAX4605 MAX4604/MAX4605/MAX4606 5v 10mA reed relay N02 Transistor rf MAX4604CAE MAX4604CPE MAX4604CSE MAX4604EAE MAX4604EPE MAX4604ESE
2011 - 1SDC210033D0202

Abstract: sorc TMAX abb tnc 400 Motor Control Center wiring diagram abb ABB sace yu delay for undervoltage release RCQ020 ABB XT1 SACE Tmax ABB time delay device for undervoltage release
Text: ABB. All rights reserved. SACE Tmax XT. New low voltage moulded-case circuit-breakers up to 250 A , Contact us Technical catalogue - Preliminary SACE Tmax XT New low voltage moulded-case circuit-breakers up to 250 A 25/07/11 10:33 Construction Characteristics 1 The SACE Tmax XT Ranges 2 , Diagrams 6 Ordering codes 7 Glossary 8 1SDC210033D0202 New SACE Tmax XT. Simply , project: the new SACE Tmax XT up to 250A - ABB SACE’s new family of moulded-case circuit-breakers


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PDF 1SDC210033D0202 1SDC210033D0202 sorc TMAX abb tnc 400 Motor Control Center wiring diagram abb ABB sace yu delay for undervoltage release RCQ020 ABB XT1 SACE Tmax ABB time delay device for undervoltage release
AD7524SD

Abstract: digital code lock schematic diagram AD7524 AD7524JCSE AD7524JN AD7524KCSE AD7524KN AD7524LCSE AD7524LN MAX7624
Text: 25°C ta = Tmin to Tmax C,E Ta = tmln to Tmax M 160 160 210 ns Data Hold Time fdh 10 ns Detailed , TMAX unless otherwise noted) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS DC ACCURACY , to tmax ±2% ±3% LSB Gain Temp. Coefficient (Note 2, 3) ±2 ±40 ppm/°C Supply Rejection (Note , Current Coim) vref = ±10v Ta = 25° C DAC is 00000000 Ta = Tm,n to TMAX ±50 ±400 nA Output Leakage Current C0UT2) Vref = ±10V Ta = 25° C DAC is 11111111 Ta = TMlN to Tmax ±50 ±400 nA REFERENCE INPUT


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PDF AD7524 MAX7624 AD7524L/C/U AD7524, AD7524SD digital code lock schematic diagram AD7524JCSE AD7524JN AD7524KCSE AD7524KN AD7524LCSE AD7524LN
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