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ASDD114-64PA TE Connectivity (ASDD114-64PA) IN-LINE RECEPTACLE ASSY 14-64 AS DOUBLE visit TE Connectivity
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ASDD114-64PB TE Connectivity (ASDD114-64PB) IN-LINE RECEPTACLE ASSY 14-64 AS DOUBLE visit TE Connectivity
ASDD110-23PA TE Connectivity (ASDD110-23PA) IN-LINE RECEPTACLE ASSY 10-23 AS DOUBLE visit TE Connectivity
ASDD110-23SN TE Connectivity (ASDD110-23SN) IN-LINE RECEPTACLE ASSY 10-23 AS DOUBLE visit TE Connectivity

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SDD11

Catalog Datasheet MFG & Type PDF Document Tags

AN-2075

Abstract: Jitter Tolerance (Total) Jitter Tolerance (Deterministic) 25 SDD11 0.01-4.1 GHz 4.1 â'" 11.1 GHz , coefficient given by equation SDD11(dB)< -12+2*SQRT(f), with f in GHz. See Figure 4. 3. Reflection coefficient given by equation SDD11(dB)< -6.3+13Log10(f/5.5), with f in GHz. See Figure 4. 500 400
Finisar
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AN-2075 FCBG410QB1C 4G/8G/10G FCBG410QB1C03 FCBG410QB1C05 FCBG410QB1C10 FCBG410QB1C15
Abstract: 6. SDD11 / SDD22 differential return loss versus frequency (ID pin floating) SDD11 / SDD22 (dB) 0.00 -5.00 -10.00 -15.00 SDD22 -20.00 -25.00 SDD11 -30.00 -35.00 F(Hz) -40.00 STMicroelectronics
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ECMF02-3F3 ID023283

HFRD

Abstract: Molex qsfp connector differential return loss (SDD11) for the board is shown in Figures 11 and 12. Figure 11 shows the SDD11 for , data shown in Figure 12 indicates that HFRD32.0 is adequate for operation at 10Gbps. SDD11 in Figure , .0 Without QSFP Connector 0 -3 -6 SDD11(dB) -9 SFP+ Tolerance Limit -12 -15 -18 RX1 , Load 0 -3 -6 SDD11(dB) -9 SFP+ Tolerance Limit -12 -15 -18 RX1 RX2 RX3 RX4
Maxim Integrated Products
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HFRD-32 XC679CT HFRD Molex qsfp connector QSFP connector QSFP ds1608 C2427 5000K-ND PIC16C745-I/SO C24-27 C49-50

rp36

Abstract: SDD12 via to GND per inch fdd pull high +5VS_FDD RP48 C C RP31 SDD2 SDD12 SDD3 SDD11 SDD0 SDD14 SDD1 SDD13 SDD2 SDD12 SDD3 SDD11 SDD0 SDD14 SDD1 SDD13 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 RP33X8 RP
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PDD10 rp36 C557 PDD15 RDDP15 RDDP10 0603B DTC144WK

J512

Abstract: SDD15 +5VS_CDROM RP36 1 0 k pull dn 12 SDD7 R182 10K 0603B 12 SDD10 12 SDD6 12 SDD11 12 SDD5 12 SDD12 12 SDD8 12 SDD9 SDD8 SDD9 SDD7 SDD10 SDD6 SDD11 SDD5 SDD12 RP0X8 RP_16P8R_4016 RDDS8 RDDS9 RDDS7 RDDS10 RDDS6
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PDD11 RDDP14 SDD15 J512 MITAC 660 C279 PDD12 PDD13 PDD14 RDDP11 RDDP12

hi pot test sheets

Abstract: ethernet transformer Application Note - Return Loss (Sdd11 and Sdd22) 1 - 100 MHz dB - -23.4 -20 Differential to , °C, 0dBm, Z0 = 50, Pin = 0dBm Insertion Loss: (Sdd21) Return Loss: Input (Sdd11) -10 -0.3 -15
M/A-COM
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MABA-010051-CF1A41 hi pot test sheets ethernet transformer Application Note 50 Ohm transformer ethernet transformer 010051 10/100BASE-T MABA-010051CF1A41 2002/95/EC MABA-010051-CF1ATB

R554

Abstract: mitac CONN_ELCO6232_26 GND C +5VS C RP513 7 7 7 7 SDD2 SDD12 SDD3 SDD11 SDD2 SDD12 SDD3 SDD11 1 2 3 4
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JP504 RP505 R554 mitac J1213 R563 RP514 IRQ14 RP33X4 RDDP13 RIRQ14 G462-X103 G462-X101
Abstract: Agilent N1021B 18 GHz Differential TDR Probe Kit Get connectivity to printed circuit boards and other devices without connectors ● Shorten design cycles: Characterize differential impedances including return and insertion losses ● Get better insights: display results in the time domain (impedance profiles)or frequency-domain (SDD11, SDD21) ● Control processes: Maintain consistent quality , S-parameters like SDD11/SDD21). Superior Probe Usability: â'¢ Differential probe body. The tips move Agilent Technologies
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86100C 86100C-202 SDD11/SDD21 N1020A N1024B 5990-4013EN

N1021-60003

Abstract: SDD11 Agilent N1021B 18 GHz Differential TDR Probe Kit Get connectivity to printed circuit boards and other devices without connectors Shorten design cycles: Characterize differential impedances including return and insertion losses Get better insights: display results in the time domain (impedance profiles)or frequency-domain (SDD11, SDD21) Control processes: Maintain consistent quality in printed , S-parameters like SDD11/SDD21). Superior Probe Usability: · Differential probe body. The tips move
Agilent Technologies
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83480AK02 N1021-60003 54754A N1021 N1021-60008 N1024A

mitac 6120

Abstract: PDD15 2 GND 7 7 7 7 7 SDD10 SDD6 SDD11 SDD5 SDD12 1 7 SDD8 7 SDD9 SDD8 SDD9 SDD7 SDD10 SDD6 SDD11 SDD5
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mitac 6120 RP66 L25D SI2302DS 0603B7 120Z/100M 0805C RDDS11 RDDS12

GP025

Abstract: gp026 st PDD8 PDD7 AD12 AD8 AD4 AD0 PCIR- PHOEQC# LD# SDD9 SDD11 SDCS1# PDD9 , F18 SA18 U4 SDD10 D13 SUSCLK P17 PDIOR# F17 SA19 V4 SDD11 B14
Intel
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82371AB GPO28 GPO30 GPO27 GP025 GP024 gp026 st gp026 GPI21 GPI18

SFF-8431

Abstract: QLX1000CSFF1524 ZCABLE 100 Ohm Cable Impedance 0.42UI Input Return Loss SDD11 (Differential) 100 MHz , : Note 4: Note 5: Note 6: Maximum Reflection Coefficient given by equation SDD11(dB)= -12 + 2*SQRT(f ), with f in GHz. Maximum Reflection Coefficient given by equation SDD11(dB)= -6.3+13Log10(f/5.5), with f
Quellan
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SFF-8431 SFF-8432 QLX1000CSFF0532 QLX1000CSFF1028 QLX1000CSFF1524 32AWG SFF-8472 twinax INF-8074i SFP ACTIVE COPPER CABLE EMC SFP SFF-8472

sumitomo sfp

Abstract: SPP5200 -8431 2. Reflection Coefficient given by equation SDD11(dB)< -12+2*SQRT(f), with f in GHz 3. Reflection Coefficient given by equation SDD11(dB)< -6.3+13*log10(f/5.5), with f in GHz 0.01 to 11.1GHz -10 dB SDD11 4.1 , Module Compliance Board pair specified in SFF-8431. 2. Reflection Coefficient given by equation SDD11(dB)< -12+2*SQRT(f), with f in GHz 3. Reflection Coefficient given by equation SDD11(dB)< -6.3+13*log10(f/5.5
Sumitomo Electric
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SPP5200LR-GL SPP5200LR-GL-M SPP5200 sumitomo sfp spp5200lr Sumitomo TOSA TS-S09D072B 10GBASE-LR/LW 1200-SM-LL-L IEEE802

hi pot test sheets

Abstract: SCD21 Min -0.5 -0.5 -0.6 Typ -0.20 -0.30 -0.43 -30 -37 1.5 Max -20 -35 3.5 Return Loss (Sdd11 and Sdd22 , . V2 Return Loss: Input (Sdd11) 0 -10 -20 dB dB 89 100 -30 -40 -50 -60 -70 1 12 23
M/A-COM
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SCD21 MABA-010655-CF1A40 MABA-010655CF1A40 MABA-010655-CF1ATB ANI-019 CO-000884 CO-002313
Abstract: -0.20 -0.30 -0.43 - Return Loss (Sdd11 and Sdd22) 1 - 100 MHz dB - -30 -20 , -T Ethernet Transformer 1 MHz - 100 MHz Rev. V3 Return Loss: Input (Sdd11) 0 0.0 -0.1 -0.2 -0.3 M/A-COM
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hi pot test sheets

Abstract: ethernet transformer 65 - 100 MHz dB dB dB -0.5 -0.5 -0.6 -0.20 -0.30 -0.43 - Return Loss (Sdd11 and , -010655-CF1A40 Transformer, 10/100BASE-T Ethernet Transformer 1 MHz - 100 MHz Rev. V1 Return Loss: Input (Sdd11) 0
M/A-COM
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MABA01

AN3353

Abstract: 3M Philippines 100M 300M 1G 3G Figure 5. SDD11 / SDD22 differential return loss measurements (Z0 diff = 100 ) SDD11 SDD22 Figure 6. SDD21 differential attenuation measurements (Z0 diff = 90 ) 0 - 5 - 10 - 15 - 20 - 25 - 30 - 35 - 40 SDD11 / SDD22 (dB) F(Hz) 300k 1M 3M 10M 30M 100M 300M 1G 3G 0
STMicroelectronics
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AN3353 3M Philippines 17815 ECMF04-4AMX12 microusb mipi PCB layout ECMF02-2AMX6

mipi PCB layout

Abstract: ECMF02-2AMX6 3M 10M 30M 100M 300M 1G Figure 4. 3G F(Hz) 300k Sdd11, Sdd22 differential return loss Figure 6. measurements (Z0 diff = 100 ) Sdd11, Sdd22 1M 3M 10M 30M 100M , ) Sdd41 / Sdd23 0 - 10 Sdd11 - 5 Scc21 common mode attenuation measurements (Z0 com = 50
STMicroelectronics
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mipi d-phy mipi csi receiver inter-lane cross-coupling mipi receiver ECMF02 MDDI

10G SFP

Abstract: AFBR-703ASDZ Transmitter Electrical S-Parameters (SDD11 and SCD11) Definition of Terms · Receiver Sensitivity (SENS , Electrical S-Parameters (SDD11 and SCD11) The differential return loss and the differential to common mode , . 16 Transmitter S-Parameters (SDD11 and SCD11 , Power 25°C, 3.3V Result < -31 dBm Transmitter S-Parameters (SDD11 and SCD11) Spec per SFF-8431. 25/25 modules pass. Typical data are shown. 0.0 SDD11 (dB) -10.0 -20.0 -30.0 -40.0 -50.0
Avago Technologies
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AFBR-703ASDZ 10G SFP 042UI IEC-61000-4-2 RIN12OMA PRBS31 10GBASE-SR SCC22 AV02-1900EN

AFBR-703SDZ

Abstract: 10G SFP Transmitter Electrical S-Parameters (SDD11 and SCD11) Definition of Terms · Receiver Sensitivity (SENS , Electrical S-Parameters (SDD11 and SCD11) The differential return loss and the differential to common mode , . 16 Transmitter S-Parameters (SDD11 and SCD11 , < -31 dBm Transmitter S-Parameters (SDD11 and SCD11) Spec per SFF-8431. 25/25 modules pass. Typical data are shown. 0.0 SDD11 (dB) -10.0 -20.0 -30.0 -40.0 -50.0 -60.0 0 2 4 6
Avago Technologies
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AFBR-703SDZ AV02-1899EN
Abstract: (Sdd11) for the deep trace (port3, port4) versus the shallow trace breakout (port1, port2) for both the Altera
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AN-651-1
Abstract: ZCABLE 100 Ohm Cable Impedance 0.42UI Input Return Loss SDD11 (Differential) 100 MHz , : Note 4: Note 5: Note 6: Maximum Reflection Coefficient given by equation SDD11(dB)= -12 + 2*SQRT(f ), with f in GHz. Maximum Reflection Coefficient given by equation SDD11(dB)= -6.3+13Log10(f/5.5), with f -
OCR Scan
100M0

C101E

Abstract: HD3SS3412 +5VS_CDROM RP36 1 0 k pull dn 12 SDD7 R182 10K 0603B 12 SDD10 12 SDD6 12 SDD11 12 SDD5 12 SDD12 12 SDD8 12 SDD9 SDD8 SDD9 SDD7 SDD10 SDD6 SDD11 SDD5 SDD12 RP0X8 RP_16P8R_4016 RDDS8 RDDS9 RDDS7 RDDS10 RDDS6
Texas Instruments
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HD3SS3412 C101E SLAS828A
Abstract: m3 m4 5 m1 freq=300.0kHz freq=300.0kHz dB(SDD21)=-0.491 dB(SDD11) 0 -5 m5 freq= 329.0kHz dB(SDD11)=-28.545 m7 m6 m6 freq= 2.514GHz dB(SDD11)=-13.842 m7 freq= 3.985GHz dB(SDD11)=-11.177 Texas Instruments
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ISO/TS16949
Abstract: (SDD11) phas e(SDD21) 0 -40 -60 -30 -40 4 -80 5 -100 0 1 2 3 4 , -10 0 1 -20 -1 -2 -3 -20 dB(SDD11) phas e(SDD21) 0 -40 -60 -40 -80 -4 , to differential mode conversion o Differential Return Loss SDD11 · Time Domain o Impedance profile of connector DC Quadrant DD Quadrant Eqn SDD11) -15 -20 Texas Instruments
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prbs using lfsr

Abstract: pcb connectors CONN_ELCO6232_26 GND C +5VS C RP513 7 7 7 7 SDD2 SDD12 SDD3 SDD11 SDD2 SDD12 SDD3 SDD11 1 2 3 4
Samtec
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prbs using lfsr pcb connectors samtec connector eplsp 3E09 port ps
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