• Model: NTE74191
  • Catalog #: 55051335

NTE74191 IC TTL Binary Synch Counter

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$4.77

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(Online Only)

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Additional Information

  • Summary
  • Tech Specs
  • Reviews
The NTE74191 is a synchronous 4−bit binary reversible up/down counter in a 16−lead plastic DIP-type package having the complexity of 58 equivalent gates. Synchronous operation is provided by having all flip−flops clocked simultaneously so that the outputs change coincident with each other when so instructed by the steering logic. This mode of operation eliminates the output counting spikes normally associated with asynchronous (ripple clock) counters. The outputs of the four master−slave flip−flops are triggered on a low−to−high transition of the clock input if the enable input is low. A high at the enable input inhibits counting. Level changes at the enable input should be made only when the clock input is high. The direction of the count is determined by the level of the down/up input. When low, the counter counts up and when high, it counts down. A false clock may occur if the down/up input changes while the clock is low. A false ripple carry may occur if both the clock and enable are low and the down/up input is high during a load pulse. This counter is fully programmable; that is, the outputs may be preset to either level by placing a low on the load input and entering the desired data at the data inputs. The output will change to agree with the data inputs independently of the level of the clock input. This feature allows the counters to be used as modulo−N dividers by simply modifying the count length with the preset inputs. The clock, down/up and load inputs are buffered to lower the drive requirement which significantly reduces the number of clock drivers, etc., required for long parallel words. Two outputs have been made available to perform the cascading function: ripple clock and maximum/minimum count. The latter output produces a high − level output pulse with a duration approximately equal to one complete cycle of the clock when the counter overflows or underflows. The ripple clock output produces a low−level output pulse equal in width to the low−level portion of the clock input when an overflow or underflow condition exists. The counters can be easily cascaded by feeding the ripple clock output to the enable input of the succeeding counter if parallel clocking is used, or to the clock input if parallel enabling is used. The maximum/minimum count output can be used to accomplish look−ahead for high−speed operation.
  • Single down/up count control line
  • Count enable control input
  • Ripple clock output for cascading
  • Asynchronously presettable with load control
  • Parallel outputs
  • Cascadable for n−bit applications
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Shipping

Ships in 1-2 Business Days

Presentation Attributes

Storefront Attributes

Search Refinements

Shop Runner

Battery Features

Capacity UOM

mAh

Rechargeable

No

Cleansing

Dimensions

Fulfillment

Package Height

0.50

Package Length

6.25

Package Width

3.70

General

Model

NTE74191

Product Type

Counters

Identification

Manufacturer Part Number

NTE74191

Surcharge

Legal

Merchandising

Inputs & Outputs

Miscellaneous Features

Operating Temperature UOM

° F

Supported Languages

English

Power Features

Docking station

No

Promo

Retail

Price

Remote Control Features

Warranty

0.00

0.00

Available RadioShack Service Plan

No

Warranty Labor UOM

days

Warranty Parts UOM

days

Root

Additional Features

Water-Resistant or Waterproofness Standard

No

Miscellaneous Features

Power Features

Print
 

Summary

The NTE74191 is a synchronous 4−bit binary reversible up/down counter in a 16−lead plastic DIP-type package having the complexity of 58 equivalent gates. Synchronous operation is provided by having all flip−flops clocked simultaneously so that the outputs change coincident with each other when so instructed by the steering logic. This mode of operation eliminates the output counting spikes normally associated with asynchronous (ripple clock) counters. The outputs of the four master−slave flip−flops are triggered on a low−to−high transition of the clock input if the enable input is low. A high at the enable input inhibits counting. Level changes at the enable input should be made only when the clock input is high. The direction of the count is determined by the level of the down/up input. When low, the counter counts up and when high, it counts down. A false clock may occur if the down/up input changes while the clock is low. A false ripple carry may occur if both the clock and enable are low and the down/up input is high during a load pulse. This counter is fully programmable; that is, the outputs may be preset to either level by placing a low on the load input and entering the desired data at the data inputs. The output will change to agree with the data inputs independently of the level of the clock input. This feature allows the counters to be used as modulo−N dividers by simply modifying the count length with the preset inputs. The clock, down/up and load inputs are buffered to lower the drive requirement which significantly reduces the number of clock drivers, etc., required for long parallel words. Two outputs have been made available to perform the cascading function: ripple clock and maximum/minimum count. The latter output produces a high − level output pulse with a duration approximately equal to one complete cycle of the clock when the counter overflows or underflows. The ripple clock output produces a low−level output pulse equal in width to the low−level portion of the clock input when an overflow or underflow condition exists. The counters can be easily cascaded by feeding the ripple clock output to the enable input of the succeeding counter if parallel clocking is used, or to the clock input if parallel enabling is used. The maximum/minimum count output can be used to accomplish look−ahead for high−speed operation.
  • Single down/up count control line
  • Count enable control input
  • Ripple clock output for cascading
  • Asynchronously presettable with load control
  • Parallel outputs
  • Cascadable for n−bit applications

Tech Specs

The NTE74191 is a synchronous 4−bit binary reversible up/down counter in a 16−lead plastic DIP-type package having the complexity of 58 equivalent gates. Synchronous operation is provided by having all flip−flops clocked simultaneously so that the outputs change coincident with each other when so instructed by the steering logic. This mode of operation eliminates the output counting spikes normally associated with asynchronous (ripple clock) counters. The outputs of the four master−slave flip−flops are triggered on a low−to−high transition of the clock input if the enable input is low. A high at the enable input inhibits counting. Level changes at the enable input should be made only when the clock input is high. The direction of the count is determined by the level of the down/up input. When low, the counter counts up and when high, it counts down. A false clock may occur if the down/up input changes while the clock is low. A false ripple carry may occur if both the clock and enable are low and the down/up input is high during a load pulse. This counter is fully programmable; that is, the outputs may be preset to either level by placing a low on the load input and entering the desired data at the data inputs. The output will change to agree with the data inputs independently of the level of the clock input. This feature allows the counters to be used as modulo−N dividers by simply modifying the count length with the preset inputs. The clock, down/up and load inputs are buffered to lower the drive requirement which significantly reduces the number of clock drivers, etc., required for long parallel words. Two outputs have been made available to perform the cascading function: ripple clock and maximum/minimum count. The latter output produces a high − level output pulse with a duration approximately equal to one complete cycle of the clock when the counter overflows or underflows. The ripple clock output produces a low−level output pulse equal in width to the low−level portion of the clock input when an overflow or underflow condition exists. The counters can be easily cascaded by feeding the ripple clock output to the enable input of the succeeding counter if parallel clocking is used, or to the clock input if parallel enabling is used. The maximum/minimum count output can be used to accomplish look−ahead for high−speed operation.

Reviews