RETURN LOSS Search Results

Contextual Info: RFMD. Conversion Table VSWR / Return Loss Return Loss dB VSWR Return Loss (dB) VSWR Return Loss (dB) VSWR Return Loss (dB) VSWR Return Loss (dB) VSWR 46.064 40.086 36.607 34.151 32.256 30.714 29.417 28.299 27.318 26.444 25.658 24.943 24.289 23.686 23.127

Contextual Info: Filter Modules Typical I ‘i 17 "-mance Curves < 1OBASE-TFilte Typical Transmitter Insertion/Return Loss lules seepages 1 0- 11 Typical Receiver Insertion/Return Loss Frequency (M H z l ID -40 I = Insertion Loss B = Return Loss I = Insertion Loss • = Return Loss

Contextual Info: □ Mini-Circuits’ return loss Vs. VSWR table of return loss vs. voltage standing wave ratio RETURN LOSS d B VSWR RETURN LOSS (d B ) VSWR 46.064 40.086 36.607 34.151 32.256 30.714 29.417 28.299 27.318 26.444 25.658 24.943 24.289 23.686 23.127 22.607 22.120

A57TLSTD

Abstract: DS3181 DS3182 DS3183 DS3184 DS3171 DS3172 DS3173 DS3174 R3132
Contextual Info: Maxim > App Notes > Telecom Keywords: Return Loss, Return, Loss Mar 08, 2006 APPLICATION NOTE 3763 Measuring and Improving Return Loss on the DS317x and DS318x T3/E3/STS-1 LIUs Abstract: This application note describes how to measure and improve the return loss on the DS317x and

Contextual Info: Agilent 8504B Precision Reflectometer 0 to 80 dB return loss 25 micron resolution 1300 and 1550 nm Product Overview Lightwave component return loss measurements 2 Crucial return loss measurements High levels of measurement sensitivity Agilent 8504B Precision Reflectometer

Contextual Info: VSWR, Return Loss and Transmission Loss vs. Transmitted Power VSWR Return Loss dB Trans. Loss (dB) Volt. Refl Coeff Power Trans (%) Power Refl (%) VSWR Return Loss (dB) Trans. Loss (dB) Volt. Refl Coeff Power Trans (%) Power Refl (%) 1.00 1.01 1.02 1.03

Contextual Info: TAT3814 5-300 MHz Variable Gain Return Path Amplifier Applications Return Path Amplifier System Amplifier Line Amplifier DOCSIS Return Path VGA Bonded Channel Cable Modem Return Path 6x6 mm 40 Pin leadless SMT Package General Description 31 V3ADJ 32 GND 33 GND

Contextual Info: □ Mini-Circuits return loss Vs. VSWR table of return loss vs. voltage standing wave ratio RETURN LOSS dB 46.064 40.086 36.607 34.151 32.256 30.714 29.417 28.299 27.318 26.444 25.658 24.943 24.289 23.686 23.127 22.607 22.120 21.664 21.234 20.828 20.443

Contextual Info: TAT3814 5-300 MHz Variable Gain Return Path Amplifier Applications Return Path Amplifier System Amplifier Line Amplifier DOCSIS Return Path VGA Bonded Channel Cable Modem Return Path 6x6 mm 40 Pin leadless SMT Package General Description 31 V3ADJ 32 GND 33 GND

Contextual Info: TAT3814 5-300 MHz Variable Gain Return Path Amplifier Applications Return Path Amplifier System Amplifier Line Amplifier DOCSIS Return Path VGA Bonded Channel Cable Modem Return Path 6x6 mm 40 Pin leadless SMT Package General Description 31 V3ADJ 32 GND 33 GND

RETURN LOSS IN FAST ETHERNET

Abstract: improving return loss LXD974A LXD975A LXT974A LXT975A LF8701B LAYOUT GUIDELINES Signal Path Designer
Contextual Info: Application Note 96 AUGUST 1998 Revision 1.0 Return Loss in Fast Ethernet Networks Introduction and Scope Return Loss Overview This application note discusses return loss requirements and provides solutions essential for the successful design of Fast Ethernet systems using Level One’s LXT974A/975A

Contextual Info: Calculation of System Return Loss Resultant system return loss is governed by the phase relations between the standing waves of individual components and cannot be precisely calculated. The resultant return loss can be estimated, however, using the procedure described below. The 0.7 multiplication factor,

2525SG

Contextual Info: NTX-2525SG 50ohm Return Loss

NGX-0505SG

Contextual Info: NGX-0505SG 50ohm Return Loss

Contextual Info: P/N NGX-2010SG Return Loss

77C7

Abstract: 7781L
Contextual Info: □ M ini-Circuits ULTRAREL MIXERS YEAR G U A R A N T E E 5 return loss Vs. VSWR table of return loss vs. voltage standing wave ratio RETURN LOSS VSWR dB 46.064 1.01 40.086 1.02 36.607 1.03 1.04 34.151 32.256 1.05 30.714 1.06 29.417 1.07 28.299 1.08 27.318 1.09

VSWR Bridge

Abstract: 6230A Waveguide antenna
Contextual Info: Application Note Return Loss VSWR Measurements in Waveguide Systems Alternative methods of waveguide return loss (VSWR) measurement using the 6820 series microwave scalar analyzer are discussed and the errors associated with each are analyzed. Introduction

OTOR300

Abstract: OTOR-300
Contextual Info: LaserLite OTOR-300 24926 Highway 108 Sierra Village, CA 95346 Phone: 800 545-1022 Fax: (209) 586- 1026 E-Mail: sales@olsontech.com STANDALONE -or- 1RU RACKMOUNT RETURN OPTICAL RECEIVER Ultra Wide 5-300 MHz Passband supports traditional 5-42/65 MHz Return or newer Return Multiplexer topologies

Contextual Info: ACTIVE FREQUENCY MULTIPLIERS TYPICAL PERFO RM AN CE V S . INPUT POWER IN PU T RETURN LOSS VS. IN PU T POWER IN PU T RETURN LOSS VS. IN PU T POWER FOR J DRIVE LEVEL MULTIPLIERS cn TD CD CD o cc Z □c 1G INPUT POWER dBm) 14 18 22 INPUT POWER (dBm) IN PU T RETURN LOSS VS. IN PU T POWER

Contextual Info: SC Type Fiber Optic Connectors Ferrule cap Black EJ2516054 Green EJ2516056 Frame cap H2516062 String SC Type Fiber Optic Connectors H2516061 (Frame Cap) PERFORMANCE MULTI MODE SINGLE MODE INSERTION LOSS RETURN LOSS INSERTION LOSS RETURN LOSS PC POLISHING

38058

Abstract: WSS2-00002
Contextual Info: WSS2-00002 PCS Hybrid 1-2 Receiver Splitter Features: • Excellent Insertion Loss - 3.1dB typical • Excellent Return Loss - 25dB typical • High Isolation - 25dB typical Specifications Passbands: Passband Insertion Loss: Passband Return Loss: Output to Output Isolation:

Contextual Info: WSC2-00018 PCS Hybrid 2-1 Transmit Combiner Module Features: • Excellent Insertion Loss - 3.1dB typical • High Return Loss - 20dB minimum • High Isolation - 20dB minimum Specifications Passbands: Passband Insertion Loss: Passband Return Loss: Input to Input Isolation:

j1 female connector pin

Abstract: 26 pin d sub connector Db 9-pin female Connector 9-pin
Contextual Info: Power Amplifiers SM002010-44LD 20MHz to 1000MHz Specifications RF Frequency P1dB Power Output PSat Power Output Linear Gain Gain Flatness Over Band Gain Change Over Temp Third Order Intercept OIP3 Input Return Loss Output Return Loss Featured and Options

RIFOCS

Abstract: ARP5061 RIFOCS Return Loss 583K 582K-105 582K-106 582K-110 583K-105 58-MTRJ-106 E2000
Contextual Info: Components 5800 Series Multimode Reference Cables Features Applications • General Fiber Optic Testing Off-the-shelf reference cables for all RIFOCS return loss meters ■ Tighter tolerances for maximum measurement accuracy ■ Low insertion loss ■ High return loss