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EXPERIMENTS WITH TTL DIJTAL DOORS

TTL (Time to live) is a mechanism that is designed to limit how long data lives in a computer or a network. TTL can be implemented as either having a counter or timestamp attached or embedded in the data in order to ensure that data is discarded once the correct time is reached. Time to live (TTL) refers to the amount of time or “hops” that a packet is set to exist inside a network before being discarded by a router.

There are 41 applications on TTL digital doors. I am thankful to our readers, S.Demirhan(sdmh), who brought the file to me. Many of the circuits have been tested and Vocational High Schools will be useful to the students of the University. A beautiful application archive on digital electronics should be at the bottom.

EXPERIMENTS WITH TTL DIJTAL DOORS

Follow the given below for pictures high resolution.

  • And (And) gate made with integrated
  • Or made with integrated (Or) gate
  • Not made with integrated (Note) gate
  • Made With Integrated And Not (Nand) Gate
  • Made With Integrated Or Not (Nor) Gate
  • Custom Made (Xor) gate with integrated
  • And not gate with Not door acquisition
  • And not with gate gate and obtaining gate
  • AndDo not achieve gate or gate
  • Or Not with the gate Not with the gate
  • Or Not With Gate or Obtain Gate
  • Or Not With the gate And obtaining the gate
  • With two entrances And gate With three entrances And gate
  • Two-port or gate with three-port or gate
  • Two-port or gate with three-port or gate
  • Four to two encoders (Encoder)
  • Priority encoder
  • 7Segment Display Driver Integration from BCD (Decoder)
  • Two-input decoder
  • BCD to 10 system decoder
  • Half Collector Circuit
  • Full Collector Circuit
  • Integrated Full Collector Circuit
  • Half Remover Circuit
  • Full Remover Circuit
  • Square Receiver Circuit
  • 3-Bit Double Integer
  • Square Receiver Circuit 2 (Square of 3-bit number)
  • Single-bit comparator circuit
  • Four-bit integrated comparator
  • 2 × 1 Multiplexer Mux Circuit
  • 4 × 1 Multiplexer Mux Circuit
  • 1 × 2 Demultiplexer (Information Distributor) Demux Circuit
  • 1 × 4 Demux (Information Distributor) Demultilexer circuit
  • RS Flip-Flop Circuit
  • RS Flip-Flop Circuit with Trigger
  • JK Flip-Flop Circuit
  • D Flip-flop (with logic gates)
  • D Flip-flops
  • T Flip-flop (with logic gates)
  • T Flip-flop (Integrated).
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