CIT Relay & Switch Introduces New Encoded Rotary DIP Switches
CIT Relay & Switch is now offer...
CIT Relay & Switch is now offering Encoded Rotary DIP switches in two sizes. The 7mm RD07 Series is sub-miniature in size, offering a flush arrow, 4.9mm knurled slot or 4.2mm flat slot actuator style option with three positions from 4 to 16. The RD10 is 10mm in size with five positions from 4 to 16. Actuator style options for the RD10 are flush arrow or 7.3mm knurled arrow. Both the RD07 and the RD10 are IP67 process sealed with code options of Real Code or Complementary Code. Available with multiple terminal options, both the RD07 and the RD10 offer packaging options of tube or tape & reel.
Lead-time averages 6 to 8 weeks. Volume pricing is dependent on option choices. Contact CIT directly for a quote and sample to solve your process sealed switch needs.
CIT RELAY & SWITCH, a division of Circuit Interruption Technology, Inc., manufactures a broad array of automotive, telecom, security, industrial and audio relays and switches in thru-hole, panel, and surface mount styles. CIT RELAY & SWITCH products are supported by a worldwide network of distributors and sales representatives. For more information about the CIT RELAY & SWITCH coded rotary DIP switches or any of the CIT switch or relay products, contact CIT RELAY & SWITCH, 14680 James Road, Rogers, Minnesota, 55374 USA. Phone: 763-535-2339, Fax: 763-535-2194, E-Mail: email@example.com, Website: www.citrelay.com
For more information send an inquiry directly to CIT Relay & Switch
Switches & Relays
CIT Relay & Switch manufactures a broad array of automotive, telecom, security, industrial, and HVAC thru-hole and surface mount switches and relays. The companys focus on customer service and quality combined with cost effective manufacturing makes CIT the favorite choice for new design as well as second sourcing. Headquartered in Minnesota, renowned for its strong work ethic and technical capability CIT offers its burgeoning customer base a fl exible can do approach to relay and switch design.