Telephone Line Analyzer User Manual
User Manual for the TLA1000 (Version 1)
Product Data Sheets (pdf)...Crimp Tools
Product Data Sheets (pdf)...DB9 PockeTester
EZ Check Cable Tester with Probe User Manual
User Manual for the EZCTP (Version 2)
Video...How to terminate and test copper cable.
This hands-on Tips for Techs video takes you inside the Black Box Training Center to show you how to terminate and test cabling for a copper installation. The video begins... more/see it nowwith a step-by-step demonstration of terminating a patch cable up to the CAT6 specification, with special focus on how to cut and strip the cabling in a way that ensures good signaling integrity. Next, it covers how to validate and verify a backbone link between a patch panel and workstation. The video tutorial then demonstrates what kind of tester you’ll need if you must certify and document a copper link, then ends with a discussion on what you’ll need to simply verify the Ethernet performance of a cable run. collapse
Black Box Explains...Coax connectors.
Product Data Sheets (pdf)...Professionals Tool Kit
The BNC (Bayonet-Neill-Concelman) connector is the most commonly used coax connector. This large ”bayonet“ connector features a slotted outer conductor and an inner plastic dielectric, and it offers easy connection... more/see it nowand disconnection. After insertion, the plug is turned, tightening the pins in the socket. It is widely used in video and Radio Frequency (RF) applications up to 2.4 GHz. It is also common in 10BASE2 Ethernet networks, on cable interconnections, network cards, and test equipment.
The TNC connector is a threaded version of the BNC connector. It works in frequencies up to 12 GHz. It‘s commonly used in cellular telephone RF/antenna applications.
The N connector is a larger, threaded connector that was designed in the 1940s for military systems operating at less than 5 GHz. In the 1960s, improvements raised performance to 12 GHz. The connector features an internal gasket and is hand tightened. It is common on 2.4-GHz antennas.
The UHF connector looks like a coarse-threaded, big center-conductor version of the N connector. It was developed in the 1930s. It is suitable for use up to 200–300 MHz and generally offers nonconstant impedance.
The F connector is most often used in cable and satellite TV and antenna applications; and it performs well at high frequencies. The connector has a 3/8–32 coupling thread. Some F connectors are also available in a screw-on style.
The SMA (Subminiature A) connector is one of the most common RF/microwave connectors. This small, threaded connector is used on small cables that won’t be connected and disconnected often. It’s designed for use to 12.4 GHz, but works well at 18, and sometimes even up to 24 GHz. This connector is often used in avionics, radar, and microwave communications.
The SMC (Subminiature C) connector is a small, screw-on version of the SMA. It uses a 10–32 threaded interface and can be used in frequencies up to 10 GHz. This connector is used primarily in microwave environments.
The SMB (Subminiature B) connector is a small version of the SMC connector. It was developed in the 1960s and features a snap-on coupling for fast connections. It features a self-centering outer spring and overlapping dielectric. It is rated from 2–4 GHZ, but can possibly work up to 10 GHz.
The MCX (Micro Coax) connector is a coax RF connector developed in the 1980s. It has a snap-on interface and uses the same inner contact and insulator as the SMB connector but is 30% smaller. It can be used in broadband applications up to 6 GHz.
Deluxe RJ-11 Modular Plug Kit Manual
Manual for the FTM600-R2.
Product Data Sheets (pdf)...Net-Advisor and Veri-Nets
- Quick Start Guide...
Basic Optical Power Meter Quick Start Guide (QSG)
Quick Start Guide (QSG) for the FOPM-100.