Logic - Counters, Dividers

Part Number	Description / PDF	Quantity
74HC4060PW-Q100118 NXP Semiconductors	BINARY COUNTER, HC/UH SERIES	0
74HCT390N,652 NXP Semiconductors	DECADE COUNTER	9681
HEF4060BP,652 NXP Semiconductors	BINARY COUNTER	0
74HCT4040DB,112-NXP NXP Semiconductors	BINARY COUNTER, HCT SERIES, ASYN	0
74HC4059D,118 NXP Semiconductors	74HC4059D - DIVIDE BY N COUNTER	338
74HC390N,652 NXP Semiconductors	DECADE COUNTER, HC/UH SERIES	13675
74HC4059DB,112 NXP Semiconductors	74HC4059D - DIVIDE BY N COUNTER	208
74HC4017DB,118 NXP Semiconductors	RING COUNTER, HC/UH SERIES, SYNC	3981
74HC390DB,118 NXP Semiconductors	DECADE COUNTER, HC/UH SERIES, AS	2000
74HC40103DB,118 NXP Semiconductors	BINARY COUNTER	7480
74HC4040BQ-Q100115 NXP Semiconductors	BINARY COUNTER, HC/UH SERIES	9000
74HC4017BQ-Q100115 NXP Semiconductors	RING COUNTER	7551
74LVC161BQ/S505115 NXP Semiconductors	BINARY COUNTER	30964
HEF4040BT-Q100118 NXP Semiconductors	BINARY COUNTER	22500
74HC4040N,652 NXP Semiconductors	BINARY COUNTER	6469
74HC4020N,652 NXP Semiconductors	BINARY COUNTER	19317
74LV393PW/S400118 NXP Semiconductors	BINARY COUNTER	2450
74HC4520D/S400118 NXP Semiconductors	BINARY COUNTER, HC/UH SERIES	49847
HEF4020BT-Q100118 NXP Semiconductors	BINARY COUNTER	4999
74AHC1G4210GW125 NXP Semiconductors	10-STAGE DIVIDER AND OSCILLATOR	0

Logic - Counters, Dividers

1. Overview

Logic counters and dividers are digital integrated circuits designed to process clock signals by counting pulses or dividing frequencies. Counters increment or decrement stored values based on input clocks, while dividers reduce input signal frequencies by integer ratios. These ICs serve as fundamental components in timing control, frequency synthesis, and system synchronization. Their importance spans across modern electronics, including communication systems, automotive control units, and industrial automation, where precise signal manipulation is critical.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Synchronous Counters	Clock signals control all flip-flops simultaneously	Digital clocks, frequency dividers
Asynchronous Counters	Cascaded flip-flops with ripple carry	Low-speed counters, event counting
Up/Down Counters	Selectable counting direction via control signals	Motion control, bidirectional timers
Frequency Dividers	Programmable division ratios (1/N)	RF transceivers, phase-locked loops

3. Structure and Composition

Typical logic counters/dividers consist of:

CMOS/TTL logic gates for control logic
D-type flip-flops for data storage
Cascaded binary/decade counting stages
Input/output buffers for signal integrity

Common packages: 14/16-pin DIP, SOIC, TSSOP. Semiconductor materials use silicon with advanced node processes (e.g., 90nm CMOS).

4. Key Technical Specifications

Parameter	Description
Maximum Counting Frequency	Determines operational speed limit (DC to 160MHz)
Counting Range	4-bit to 12-bit resolution options
Supply Voltage	Operating range (1.8V-5.5V for CMOS variants)
Propagation Delay	Critical for timing accuracy (10-50ns typical)
Quiescent Current	Power efficiency indicator (<1 A to 30mA)

5. Application Areas

Telecommunications: 5G base stations, optical transceivers
Consumer Electronics: Smartphones, smartwatches
Automotive: Engine control units, ADAS sensors
Industrial: PLCs, CNC machine controllers

6. Leading Manufacturers and Products

Manufacturer	Representative Products
TI (Texas Instruments)	SN74HC163 (4-bit binary counter)
STMicroelectronics	CD4040 (12-stage ripple counter)
Infineon Technologies	CY2309 (clock divider IC)
NXP Semiconductors	74VHC164 (high-speed divider)

7. Selection Guidelines

Key considerations:

Match counting range with system bit-width requirements
Verify maximum operating frequency against clock sources
Optimize power consumption via supply voltage selection
Choose package type based on PCB space constraints
Assess temperature ratings for industrial/automotive environments

8. Industry Trends Analysis

Current development trends include:

Transition to sub-1V supply voltages for mobile applications
Integration with phase-locked loop (PLL) circuits
Adoption of FinFET technology for >100MHz counters
Emerging use in IoT edge devices for signal preprocessing

Market demand grows at 4.2% CAGR driven by 5G infrastructure and automotive electrification.