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74LS160 Dataheets PDF



Part Number 74LS160
Manufacturers SYC
Logo SYC
Description BCD DECADE COUNTERS / 4-BIT BINARY COUNTERS
Datasheet 74LS160 Datasheet74LS160 Datasheet (PDF)

BCD DECADE COUNTERS/ 4-BIT BINARY COUNTERS The LS160A / 161A / 162A / 163A are high-speed 4-bit synchronous counters. They are edge-triggered, synchronously presettable, and cascadable MSI building blocks for counting, memory addressing, frequency division and other applications. The LS160A and LS162A count modulo 10 (BCD). The LS161A and LS163A count modulo 16 (binary.) The LS160A and LS161A have an asynchronous Master Reset (Clear) input that overrides, and is independent of, the clock and all.

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BCD DECADE COUNTERS/ 4-BIT BINARY COUNTERS The LS160A / 161A / 162A / 163A are high-speed 4-bit synchronous counters. They are edge-triggered, synchronously presettable, and cascadable MSI building blocks for counting, memory addressing, frequency division and other applications. The LS160A and LS162A count modulo 10 (BCD). The LS161A and LS163A count modulo 16 (binary.) The LS160A and LS161A have an asynchronous Master Reset (Clear) input that overrides, and is independent of, the clock and all other control inputs. The LS162A and LS163A have a Synchronous Reset (Clear) input that overrides all other control inputs, but is active only during the rising clock edge. BCD (Modulo 10) Asynchronous Reset Synchronous Reset LS160A LS162A Binary (Modulo 16) LS161A LS163A 74LS160 74LS161 74LS162 74LS163 BCD DECADE COUNTERS / 4-BIT BINARY COUNTERS LOW POWER SCHOTTKY J SUFFIX CERAMIC CASE 620-09 16 1 • • • • • • Synchronous Counting and Loading Two Count Enable Inputs for High Speed Synchronous Expansion Terminal Count Fully Decoded Edge-Triggered Operation Typical Count Rate of 35 MHz ESD > 3500 Volts CONNECTION DIAGRAM DIP (TOP VIEW) VCC 16 TC 15 Q0 14 Q1 13 Q2 12 Q3 11 CET 10 PE 9 NOTE: The Flatpak version has the same pinouts (Connection Diagram) as the Dual In-Line Package. *MR for LS160A and LS161A *SR for LS162A and LS163A 16 1 N SUFFIX PLASTIC CASE 648-08 16 1 D SUFFIX SOIC CASE 751B-03 ORDERING INFORMATION SN54LSXXXJ SN74LSXXXN SN74LSXXXD Ceramic Plastic SOIC 1 *R 2 CP 3 P0 4 P1 5 P2 6 P3 8 7 CEP GND PIN NAMES PE P0 – P3 CEP CET CP MR SR Q0 – Q3 TC Parallel Enable (Active LOW) Input Parallel Inputs Count Enable Parallel Input Count Enable Trickle Input Clock (Active HIGH Going Edge) Input Master Reset (Active LOW) Input Synchronous Reset (Active LOW) Input Parallel Outputs (Note b) Terminal Count Output (Note b) LOADING (Note a) HIGH 1.0 U.L. 0.5 U.L. 0.5 U.L. 1.0 U.L. 0.5 U.L. 0.5 U.L. 1.0 U.L. 10 U.L. 10 U.L. LOW 0.5 U.L. 0.25 U.L. 0.25 U.L. 0.5 U.L. 0.25 U.L. 0.25 U.L. 0.5 U.L. 5 (2.5) U.L. 5 (2.5) U.L. LOGIC SYMBOL 9 3 4 5 6 7 10 2 PE P0 P1 P2 P3 CEP CET CP TC 15 *R Q0 Q1 Q2 Q3 NOTES: a) 1 TTL Unit Load (U.L.) = 40 µA HIGH/1.6 mA LOW. b) The Output LOW drive factor is 2.5 U.L. for Military (54) and Temperature Ranges. 1 14 13 12 11 5 U.L. for Commercial (74) VCC = PIN 16 GND = PIN 8 *MR for LS160A and LS161A *SR for LS162A and LS163A www.sycelectronica.com.ar http://www.Datasheet4U.com SN54/74LS160A • SN54/74LS161A SN54/74LS162A • SN54/74LS163A STATE DIAGRAM LS160A • LS162A 0123 4 0 LS161A • LS163A LOGIC EQUATIONS 1 2 3 4 15 5 15 5 14 6 14 6 Count Enable = CEP • CET • PE TC for LS160A & LS162A = CET • Q0 • Q1 • Q2 • Q3 TC for LS161A & LS163A = CET • Q0 • Q1 • Q2 • Q3 Preset = PE • CP + (rising clock edge) Reset = MR (LS160A & LS161A) Reset = SR • CP + (rising clock edge) Reset = (LS162A & LS163A) 13 7 13 7 12 11 10 9 8 12 11 10 9 8 NOTE: The LS160A and LS162A can be preset to any state, but will not count beyond 9. If preset to state 10, 1 1, 12, 13, 14, or 15, it will return to its normal sequence within two clock pulses. FUNCTIONAL DESCRIPTION The LS160A / 161A / 162A / 163A are 4-bit synchronous counters with a synchronous Parallel Enable (Load) feature. The counters consist of four edge-triggered D flip-flops with the appropriate data routing networks feeding the D inputs. All changes of the Q outputs (except due to the asynchronous Master Reset in the LS160A and LS161A) occur as a result of, and synchronous with, the LOW to HIGH transition of the Clock input (CP). As long as the set-up time requirements are met, there are no special timing or activity constraints on any of the mode control or data inputs. ), Count Enable Three control inputs — Parallel Enable (PE Parallel (CEP) and Count Enable Trickle (CET) — select the mode of operation as shown in the tables below . The Count , and PE inputs are HIGH. Mode is enabled when the CEP , CET , the counters will synchronously load the When the PE is LOW data from the parallel inputs into the flip-flops on the LOW to HIGH transition of the clock. Either the CEP or CET can be used to inhibit the count sequence. With the PE held HIGH, a LOW on either the CEP or CET inputs at least one set-up time prior to the LOW to HIGH clock transition will cause the existing output states to be retained. The AND feature of the two Count Enable inputs (CET • CEP) allows synchronous cascading without external gating and without delay accumulation over any practical number of bits or digits. The Terminal Count (TC) output is HIGH when the Count Enable Trickle (CET) input is HIGH while the counter is in its maximum count state (HLLH for the BCD counters, HHHH for the Binary counters). Note that TC is fully decoded and will, therefore, be HIGH only for one count state. The LS160A and LS162A count modulo 10 following a binary coded decimal (BCD) sequence. They generate a TC output when the CET input is HIGH while the cou.


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