| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
ULTRA-HIGH SPEED COMPARATOR |
988 |
|
|
 |
Renesas Electronics America |
DUAL COMPARATOR |
3000 |
|
 |
IDENTITY COMPARATOR, LS SERIES |
83724 |
|
|
 |
IDENTITY COMPARATOR |
0 |
|
|
 |
COMPARATOR |
400 |
|
|
 |
Analog Devices, Inc. |
MAX988 R-R I/O COMPARATOR |
866 |
|
 |
IDENTITY COMPARATOR |
318 |
|
|
 |
Analog Devices, Inc. |
COMPARATOR + PRECISION REFERENCE |
0 |
|
 |
NXP Semiconductors |
MAGNITUDE COMPARATOR |
7559 |
|
 |
SINGLE COMPARATOR |
2470 |
|
|
 |
8-BIT MAGNITUDE COMPARATOR |
0 |
|
|
 |
Analog Devices, Inc. |
MAX9100 MICROPOWER COMPARATOR |
317 |
|
 |
Analog Devices, Inc. |
MAX9685 ECL-OUTPUT COMPARATOR |
116 |
|
 |
IDENTITY COMPARATOR |
2113 |
|
|
 |
Nexperia |
IC COMPARATOR MAGNITUDE 16SOIC |
1000 |
|
 |
Texas Instruments |
IC COMPARATOR IDENTITY 8B 20SO |
10953 |
|
 |
Texas Instruments |
IC COMPARATOR IDENTITY 20TSSOP |
10000 |
|
 |
Texas Instruments |
MAGNITUDE COMPARATOR |
459 |
|
 |
QUAD VOLTAGE COMPARATOR |
1187 |
|
|
 |
MAGNITUDE COMPARATOR |
18897 |
|
Logic comparators are semiconductor devices that compare two analog or digital input signals and produce a binary output indicating their relative magnitudes. As a fundamental component in signal processing systems, comparators convert continuous analog signals into discrete digital states, enabling decision-making in electronic circuits. Their ability to perform rapid voltage level detection makes them essential in modern electronics for applications ranging from industrial automation to consumer devices.
| Type | Functional Characteristics | Application Examples |
|---|---|---|
| Voltage Comparators | Compare analog voltage levels with reference voltages | Power supply monitoring, battery management |
| Window Comparators | Detect if input voltage falls within specified upper/lower bounds | Temperature control systems, precision sensors |
| Current Comparators | Monitor and compare current flow levels | Motor control, overcurrent protection |
| Digital Comparators | Compare multi-bit digital words for equality/magnitude | Microprocessor ALUs, FPGAs |
| Hysteresis Comparators | Implement built-in positive feedback for noise immunity | Level detection in industrial sensors |
Typical comparator ICs consist of:
Advanced devices integrate precision resistors, EMI filtering, and temperature compensation circuits in standard packages like SOIC, TSSOP, and QFN.
| Parameter | Description | Importance |
|---|---|---|
| Propagation Delay | Time between input change and output response | Determines maximum operating speed |
| Input Offset Voltage | Minimum voltage difference required for correct output | Affects measurement accuracy |
| Power Consumption | Operating current at specified voltage | Critical for battery-powered devices |
| Hysteresis Voltage | Threshold gap between switching points | Prevents oscillation in noisy environments |
| Operating Temperature | Specified temperature range for rated performance | Essential for automotive/industrial applications |
Key industries and equipment include:
| Manufacturer | Product Family | Key Features |
|---|---|---|
| TI (Texas Instruments) | LMV331/393 Series | Nano-power consumption, rail-to-rail input |
| STMicroelectronics | TS339 Series | Automotive qualified, 5V tolerant inputs |
| Analog Devices | AD8561 | 100MHz high-speed comparator |
| Maxim Integrated | MAX9028 | 1.8V operation, push-pull output |
| NXP Semiconductors | PCF8574 | I2C interface with built-in pull-up resistors |
Key considerations for comparator selection:
Example: Selecting a window comparator with 1% threshold accuracy for a Li-ion battery management system requires careful consideration of input offset voltage drift over temperature.
Current development trends include:
Market growth is driven by IoT sensor networks, electric vehicle battery monitoring, and industrial 4.0 automation systems requiring precision signal conditioning.