Texas Instruments SN74LS92DRG4
- Part Number:
- SN74LS92DRG4
- Manufacturer:
- Texas Instruments
- Ventron No:
- 3833993-SN74LS92DRG4
- Description:
- IC COUNTER DIVIDE X12 14SOIC
- Datasheet:
- SN74LS92DRG4
Texas Instruments SN74LS92DRG4 technical specifications, attributes, parameters and parts with similar specifications to Texas Instruments SN74LS92DRG4.
- MountSurface Mount
- Mounting TypeSurface Mount
- Package / Case14-SOIC (0.154, 3.90mm Width)
- Number of Pins14
- Operating Temperature0°C~70°C
- PackagingTape & Reel (TR)
- Series74LS
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations14
- SubcategoryCounters
- Packing MethodTAPE AND REEL
- TechnologyTTL
- Voltage - Supply4.75V~5.25V
- Terminal PositionDUAL
- Terminal FormGULL WING
- Peak Reflow Temperature (Cel)NOT SPECIFIED
- Number of Functions2
- Supply Voltage5V
- Frequency42MHz
- Reflow Temperature-Max (s)NOT SPECIFIED
- Base Part Number74LS92
- Pin Count14
- Qualification StatusNot Qualified
- Operating Supply Voltage5.25V
- Number of Elements1
- Power Supplies5V
- ResetSynchronous
- FamilyLS
- DirectionUp
- Logic TypeDivide-by-12
- Max I(ol)0.008 A
- Number of Bits per Element4
- Trigger TypePositive Edge
- Propagation Delay (tpd)50 ns
- fmax-Min32 MHz
- Clock Edge Trigger TypePositive Edge
- Length8.65mm
- Width3.9mm
- RoHS StatusROHS3 Compliant
SN74LS92DRG4 Overview
Texas Instruments offers a variety of high-quality electronic components, including their Logic - Counters, Dividers chips. This specific chip belongs to the Logic - Counters, Dividers category and has a series of 74LS. It has a wide operating temperature range of 0°C~70°C and is packaged in Tape & Reel (TR) format. The terminal position is DUAL and the terminal form is GULL WING, allowing for easy installation. The chip operates on a 5V power supply and has a synchronous reset. Its clock edge trigger type is Positive Edge and it has a compact width of 3.9mm. Additionally, the reflow temperature-max (s) is not specified, ensuring optimal performance in various environments.
SN74LS92DRG4 Features
Embedded in the 14-SOIC (0.154, 3.90mm Width) package
4 bits per element
Operating supply voltage of 5.25V
Frequency of 42MHz
SN74LS92DRG4 Applications
There are a lot of Texas Instruments SN74LS92DRG4 Counters & Dividers applications.
Clocks
Dual Up Counters
Up Counters
Timing applications
counting/frequency sy nthesizers-BCD output
Analog multiplexing and demultiplexing
MULTIPLICATION
Binary counter/decoder
Time delay circuits
Frequency division
Texas Instruments offers a variety of high-quality electronic components, including their Logic - Counters, Dividers chips. This specific chip belongs to the Logic - Counters, Dividers category and has a series of 74LS. It has a wide operating temperature range of 0°C~70°C and is packaged in Tape & Reel (TR) format. The terminal position is DUAL and the terminal form is GULL WING, allowing for easy installation. The chip operates on a 5V power supply and has a synchronous reset. Its clock edge trigger type is Positive Edge and it has a compact width of 3.9mm. Additionally, the reflow temperature-max (s) is not specified, ensuring optimal performance in various environments.
SN74LS92DRG4 Features
Embedded in the 14-SOIC (0.154, 3.90mm Width) package
4 bits per element
Operating supply voltage of 5.25V
Frequency of 42MHz
SN74LS92DRG4 Applications
There are a lot of Texas Instruments SN74LS92DRG4 Counters & Dividers applications.
Clocks
Dual Up Counters
Up Counters
Timing applications
counting/frequency sy nthesizers-BCD output
Analog multiplexing and demultiplexing
MULTIPLICATION
Binary counter/decoder
Time delay circuits
Frequency division
SN74LS92DRG4 More Descriptions
Counter ICs Divide By Twelve Decade Counter
Counter Logic IC; Logic Family:LS; Supply Voltage Min:4.75V; Supply Voltage Max:5.25V; Package/Case:14-SOIC; No. of Pins:14; Operating Temperature Range:0°C to 70°C; Input Type:TTL; Leaded Process Compatible:Yes; Output Type:TTL ;RoHS Compliant: Yes
Each of these monolithic counters contains four master-slave flip-flops and additional gating to provide a divide-by-two counter and a three-stage binary counter for which the count cycle length is divide-by-five for the '90A and 'LS90, divide-by-six for the '92A and 'LS92, and the divide-by eight for the '93A and 'LS93. All of these counters have a gated zero reset and the '90A and 'LS90 also have gated set-to-nine inputs for use in BCD nine's complement applications. To use their maximum count length (decade, divide-by-twelve, or four-bit binary) of these counters, the CKB input is connected to the QA output. The input count pulses are applied to CKA input and the outputs are as described in the appropriate function table. A symmetrical divide-by-ten count can be obtained from the '90A or 'LS90 counters by connecting the QD output to the CKA input and applying the input count to the CKB input which gives a divide-by-ten square wave at output QA.
Counter Logic IC; Logic Family:LS; Supply Voltage Min:4.75V; Supply Voltage Max:5.25V; Package/Case:14-SOIC; No. of Pins:14; Operating Temperature Range:0°C to 70°C; Input Type:TTL; Leaded Process Compatible:Yes; Output Type:TTL ;RoHS Compliant: Yes
Each of these monolithic counters contains four master-slave flip-flops and additional gating to provide a divide-by-two counter and a three-stage binary counter for which the count cycle length is divide-by-five for the '90A and 'LS90, divide-by-six for the '92A and 'LS92, and the divide-by eight for the '93A and 'LS93. All of these counters have a gated zero reset and the '90A and 'LS90 also have gated set-to-nine inputs for use in BCD nine's complement applications. To use their maximum count length (decade, divide-by-twelve, or four-bit binary) of these counters, the CKB input is connected to the QA output. The input count pulses are applied to CKA input and the outputs are as described in the appropriate function table. A symmetrical divide-by-ten count can be obtained from the '90A or 'LS90 counters by connecting the QD output to the CKA input and applying the input count to the CKB input which gives a divide-by-ten square wave at output QA.
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