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Part Manufacturer Description PDF & SAMPLES
LVDS001EVK Texas Instruments 3.3V LVDS-LVDS Buffer
SN65LVDS32BDR Texas Instruments Quad LVDS Receiver with -2 to 4.4V Common-mode Range 16-SOIC -40 to 85
SN65LVDS348PW Texas Instruments Quad LVDS Receiver with -4 to 5V Common-mode Range 16-TSSOP -40 to 85
SN65LVDS3486BD Texas Instruments Quad LVDS Receiver with -2 to 4.4V Common-mode Range 16-SOIC -40 to 85
SN65LVDS33DRG4 Texas Instruments Quad LVDS Receiver with -4 to 5V Common-mode Range 16-SOIC -40 to 85
SN65LVDS34DRG4 Texas Instruments Dual LVDS Receiver with -4 to 5V Common-mode Range 8-SOIC -40 to 85

"differential input" common mode voltage LVDS

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: Differential input voltage difference Differential input common mode voltage Differential input common mode voltage LVDS output differential voltage* Sym. VCIH VCIL IIL VID VCM VCM VOD 0.25 1.1 1.1 0.25 0.30 1 1 , 2.5/3.3 V Supply Characteristics 8 LVDS output common mode Sym. VCM Min. 1.1 Typ. 1.25 Max. 1.375 , voltage 2.5 V mode Supply voltage 3.3 V mode Operating temperature Sym. VDD25 VDD33 TA Min. 2.375 3.135 , ZL40222 Precision 2:8 LVDS Fanout Buffer with Glitch-free Input Reference Switching Data Sheet Microsemi
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ZL40222LDG1 ZL40222LDF1
Abstract: input common mode voltage Differential input common mode voltage LVDS output differential voltage* Sym , Recommended Operating Conditions* Characteristics 1 2 3 Supply voltage 2.5 V mode Supply voltage 3.3 V mode , output common mode Sym. VCM Min. 1.1 Typ. 1.25 Max. 1.375 Units V Data Sheet Notes * The VOD , ZL40220 Precision 2:6 LVDS Fanout Buffer with Glitch-free Input Reference Switching Data Sheet Features Inputs/Outputs · Accepts two differential or single-ended inputs · LVPECL, LVDS, CML, HCSL Microsemi
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ZL40220LDG1 ZL40220LDF1
Abstract: Differential input common mode voltage Differential input common mode voltage LVDS Differential input voltage , Characteristics 8 9 LVDS output differential voltage* LVDS output common mode voltage Sym. VOD VCM Min. 0.25 1.1 , mode Supply voltage 3.3 V mode Operating temperature Sym. VDD25 VDD33 TA Min. 2.375 3.135 -40 Typ. 2.5 , ZL40213 Precision 1:2 LVDS Fanout Buffer with On-Chip Input Termination Data Sheet February 2013 Features Inputs/Outputs · · · · Accepts differential or single-ended input · LVPECL, LVDS, CML, HCSL Microsemi
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ZL40213LDF1 ZL40213LDG1
Abstract: logic Input leakage current Differential input voltage difference Differential input common mode voltage Differential input common mode voltage LVDS output differential voltage* Sym. VCIH VCIL IIL VID VCM VCM VOD , Characteristics - Inputs and Outputs - for 2.5/3.3 V Supply Characteristics 8 LVDS output common mode Sym. VCM Min , * Characteristics 1 2 3 Supply voltage 2.5 V mode Supply voltage 3.3 V mode Operating temperature Sym. VDD25 VDD33 , ZL40226 Precision 2:8 LVDS Fanout Buffer with Simple Input Reference Switching Data Sheet Features Microsemi
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ZL40226LDG1 ZL40226LDF1
Abstract: receiver input voltage range is from 0 V to 2.4 V. Common mode range of LVDS is similar to the theory of Voltage Input HIGH Common Mode Range (VIHCMR) of ECL devices. Currently more LVDS standards are being , of LVPECL (VCM(LVPECL) to input common mode voltage of LVDS (VCM(LVDS). VCM(LVDS) R2 + R1 ) R2 , VCM(LVPECL) = Common Mode Voltage VCM(LVDS) = Common Mode Voltage R1 = 55 W R2 = 95 W RT = 150 W , Voltage VCM(LVDS) = Common Mode Voltage 2.5 V or 3.3 V LVDS (eq. 3) LVPECL 5V ZO VCC ON Semiconductor
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100EP AND8020 SG86A SG53A sg72a LVEP17 MC100ELxxx EP809 AN1568/D 100EL 100LVEL 100LVEP
Abstract: 0.8V to 3.4V, (Note 5) VDD = 3.45V Differential Input Voltage Common Mode Voltage Range Input , receivers have a common mode input range that can accomodate LVDS compliant signals, it is recommended to , hardware power down mode. Pre-emphasis Control Inputs (affects all Channels) Note 1: The LVDS outputs do , DS90LV004 Absolute Maximum Ratings (Note 2) Supply Voltage (VDD) CMOS Input Voltage LVDS Receiver Input Voltage (Note 3) LVDS Driver Output Voltage LVDS Output Short Circuit Current Junction Temperature Storage National Semiconductor
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SCAN90004 DS90LV00
Abstract: Voltage VCM = 0.8V to 3.4V, VDD = 3.45V 100 2400 mV VCMR Common Mode Voltage Range , www.national.com DS90LV004 Absolute Maximum Ratings (Note 2) Supply Voltage (VDD) CMOS Input Voltage LVDS Receiver Input Voltage (Note 3) LVDS Driver Output Voltage LVDS Output Short Circuit Current Junction , VCL Input Clamp Voltage ICL = -18 mA 2.0 3.5 -1.5 pF -0.8 V LVDS INPUT DC , DS90LV004 accepts differential signals and allow simple AC or DC coupling. With a wide common mode range National Semiconductor
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AN-1194 DS90LV004TVS
Abstract: LatticeXP2 LVDS Input Units Common Mode Voltage Min (Vcm) 0.75 0.05 0.05 V Common Mode , is different from LVDS in that the differential and common mode signal levels are reduced yet still , Looking further at the sub-LVDS output specification, you can see that the typical common mode voltage is , HSTL18D input, have the same input differential and common mode performance as the LVDS input type. You , minimal stub length traces to the resistors. If you need the lowest common mode output noise, you will Lattice Semiconductor
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TN1210 sublvds to lvds sublvds sub-lvds sublvds lvds c2 sub SSTL18D 1-800-LATTICE
Abstract: 2400 mV VCMR Common Mode Voltage Range VID = 150 mV, VDD = 3.6V 0.05 3.55 V , voltage = VID = 500 mV, input common mode voltage = VICM = 1.2V, 50% duty cycle at 750 MHz, tr = tf = 50 , jitter has been subtracted. The input voltage = VID = 500 mV, input common mode voltage = VICM = 1.2V , , input common mode voltage = VICM = 1.2V, 223-1 PRBS pattern at 1.5 Gbps, tr = tf = 50 ps (20% to 80%). , receivers have a common mode input range that can accomodate LVDS compliant signals, it is recommended to National Semiconductor
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DS15BR400 DS15BR401 TQFP-48 DS15BR400EVK DS15BR400/DS15BR401 LLP-32
Abstract: common mode range of the LVDS receiver is 0.2 V to 2.2 V, and the recommended LVDS receiver input voltage range is from 0 V to 2.4 V. Common mode range of LVDS is similar to the theory of Voltage Input HIGH Common Mode Range (VIHCMR) of ECL devices. Currently more LVDS standards are being developed as LVDS , The input common mode range of the low voltage ECL line receivers are wide enough to process LVDS , . Many devices are available with Voltage Input HIGH Common Mode Range (VIHCMR). These differential ON Semiconductor
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AN1568 CAN split termination
Abstract: architecture Wide Input Common Mode Voltage Range allows DCcoupled interface to LVDS, CML and LVPECL drivers , Threshold VCMR Common Mode Voltage Range VID = 100 mV IIN Input Current VIN = 3.6V or 0V , a common mode input range that can accomodate LVDS compliant signals, it is recommended to check , connections of any input to any output or outputs. Wide input common mode range allows the switch to accept , -0.3V to +4V LVCMOS Input Voltage -0.3V to (VCC + 0.3V) LVDS Input Voltage -0.3V to +4V LVDS National Semiconductor
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DS10CP152Q SOIC-16 HD-SDI hd-SDI driver JESD22-C101-C AC DC Switch power 10w DS10CP152QMA AECQ-100
Abstract: line. The common mode voltage will be at the normal LVPECL levels ­ around 2 V. This scheme works well with LVDS receivers that have rail-to-rail common mode voltage, VCM, range. Most National , , VDD = 3.6V 100 VCMR Common Mode Voltage Range VID = 150 mV, VDD = 3.6V 0.05 CIN2 , receiving a signal with a common mode other than standard LVDS VCM of 1.2 V. TRI-STATE and Powerdown , biasing is not implemented, the signal common mode voltage will slowly wander to GND level. Input National Semiconductor
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DS15MB200 AN-1187 DS15MB200TSQ DS15MB200TSQX lvds buffer DS201573 CSP-9-111C2 CSP-9-111S2
Abstract: common mode range allows the switch to accept signals with LVDS, CML and LVPECL levels; the output levels , Differential Input Low Threshold Common Mode Voltage Range VID = 100 mV VIN = +3.6V or 0V VCC = 3.6V or 0V Any , common mode input range that can accomodate LVDS compliant signals, it is recommended to check respective , Voltage -0.3V to (VCC + 0.3V) LVDS Input Voltage -0.3V to +4V Differential Input Voltage |VID| 1.0V LVDS Output Voltage -0.3V to (VCC + 0.3V) LVDS Differential Output Voltage 0V to 1.0V LVDS Output Short National Semiconductor
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DS25CP152 LLP-16 OC-48 STM-16
Abstract: Threshold VTL Differential Input Low Threshold VCMR Common Mode Voltage Range VID = 100 mV , . While most differential receivers have a common mode input range that can accomodate LVDS compliant , 30063654 30063655 Total Jitter as a Function of Input Common Mode Voltage www.national.com , architecture allows connections of any input to any output or outputs. Wide input common mode range allows , -0.3V to (VCC + 0.3V) LVDS Input Voltage -0.3V to +4V LVDS Differential Input Voltage 0V to 1.0V National Semiconductor
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DS25CP152Q
Abstract: common mode voltage of 1.2V. This cell is based on the IEEE LVDS standard (1596.3). Pin order: VON, VOP , LVDS circuit architecture is shown above. A common mode differential termination strategy has been , LVDS circuit architecture is shown above. A common mode differential termination strategy has been , speed comparator that converts Low Voltage Differential Swing signals (LVDS) to logic levels. This cell , purpose high speed comparator with a wide common mode input range. Pin order: VINN, VINP, ENB,F Input Union Semiconductor
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1596-3 Union Semiconductor UM3401 400MH
Abstract: 2400 mV VCMR Common Mode Voltage Range VID = 150 mV, VDD = 3.6V 0.05 3.55 V , subtracted. The input voltage = VID = 500 mV, input common mode voltage = VICM = 1.2V, 50% duty cycle at 750 , . Stimulus and fixture jitter has been subtracted. The input voltage = VID = 500 mV, input common mode , voltage = VID = 500 mV, input common mode voltage = VICM = 1.2V, 223-1 PRBS pattern at 1.5 Gbps, tr = tf = , receivers have a common mode input range that can accomodate LVDS compliant signals, it is recommended to National Semiconductor
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Abstract: 0.8V to 3.4V, VDD = 3.45V 100 VCMR Common Mode Voltage Range VID = 150 mV, VDD = 3.45V , desired common mode bias point, termination resistor(s) and desired input differential voltage setting , have a common mode input range that can accommodate LVDS compliant signals, it is recommended to , ) Absolute Maximum Ratings (Note 2) HBM, 1.5k, 100pF Supply Voltage (VDD) CMOS Input Voltage LVDS Input Voltage (Note 3) LVDS Output Voltage LVDS Output Short Circuit Current Junction Temperature Storage National Semiconductor
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AN-1313 SCAN90004TVS IEEE1149
Abstract: nominal 1.25V common mode above ground. The common mode voltage has tight limits to permit large variations in ground between an LVDS driver and receiver. Also, change in common mode voltage, as a , Figure 4. LVDS Common Mode Measurement 50 100 50 Figure 5. LVDS Output Termination 3 , Voltage(3) VOD Differential Output VOCM Output Common Mode Voltage(2) VOCM Change in Common Mode Voltage(2) ­50 - +50 mV VOH Output HIGH Voltage(3), (4) - - Micrel-Synergy
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SY55855V SY55855VKI K10-1
Abstract: common mode voltage will be at the normal LVPECL levels ­ around 2 V. This scheme works well with LVDS receivers that have rail-to-rail common mode voltage, VCM, range. Most National Semiconductor LVDS , 3.6V 100 2400 mV VCMR Common Mode Voltage Range VID = 150 mV, VDD = 3.6V 0.05 , needs to bias the LVDS signal so that it is within the common mode range of the receiver. This may be , with a common mode other than standard LVDS VCM of 1.2 V. 20157463 FIGURE 4. DC Coupled LVDS to National Semiconductor
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DS08MB200 LVPECL multidrop LVDS 31 pin AN1194 DS08MB200TSQ DS08MB200TSQX DS201574
Abstract: . LVDS specifies a small swing of 350mV typical, on a nominal 1.25V common mode above ground. The common mode voltage has tight limits to permit large variations in ground between an LVDS driver and receiver. Also, change in common mode voltage, as a function of data input, is also kept tight, to keep EMI low , , vOCM 49.9, ±1% GND Figure 4. LVDS Common Mode Measurement 50 50 100 Figure 5. LVDS Output , IOL = 4.0mA Condition 100 Termination Output Common Mode Voltage(2) Change in Common Mode Voltage(2 Micrel-Synergy
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