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Home > Products > Integrated Circuits (ICs) > Logic - Buffers, Drivers, Receivers, Transceivers > 74FCT162240CTPVCT
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74FCT162240CTPVCT

In Stock 26134 pcs Reference Price(In US Dollars)
1+
$2.2442
200+
$0.8689
500+
$0.8382
1000+
$0.8234
Manufacturer Part Number:
74FCT162240CTPVCT
Manufacturer / Brand
Texas Instruments
Part of Description:
IC BUFFER INVERT 5.5V 48SSOP
Datasheets:
74FCT162240CTPVCT(1).pdf74FCT162240CTPVCT(2).pdf
Lead Free Status / RoHS Status:
ROHS3 Compliant
Stock Condition:
New original, 26134 pcs Stock Available.
ECAD Model:
Ship From:
Hong Kong
Shipment Way:
DHL/Fedex/TNT/UPS

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Part Number 74FCT162240CTPVCT
Manufacturer / Brand Texas Instruments
Stock Quantity 26134 pcs Stock
Category Integrated Circuits (ICs) > Logic - Buffers, Drivers, Receivers, Transceivers
Description IC BUFFER INVERT 5.5V 48SSOP
Lead Free Status / RoHS Status: ROHS3 Compliant
RFQ 74FCT162240CTPVCT Datasheets 74FCT162240CTPVCT Details PDF
74FCT162240CTPVCT Details PDF for FR.pdf
74FCT162240CTPVCT Details PDF for KR.pdf
74FCT162240CTPVCT Details PDF for IT.pdf
74FCT162240CTPVCT Details PDF for ES.pdf
74FCT162240CTPVCT Details PDF for DE.pdf
Voltage - Supply 4.5V ~ 5.5V
Supplier Device Package 48-SSOP
Series 74FCT
Package / Case 48-BSSOP (0.295", 7.50mm Width)
Package Tape & Reel (TR)
Output Type 3-State
Operating Temperature -40°C ~ 85°C (TA)
Number of Elements 4
Number of Bits per Element 4
Mounting Type Surface Mount
Logic Type Buffer, Inverting
Input Type -
Current - Output High, Low 24mA, 24mA
Base Product Number 74FCT162240

Packaging & ESD

Industry-standard static shielding packaging is used for electronic components.Anti-static, light-transparent materials allow easy identification of ICs and PCB assemblies.
The packaging structure provides electrostatic protection based on Faraday cage principles.This helps protect sensitive components from static discharge during handling and transportation.


All products are packed in ESD-safe anti-static packaging. Outer packaging labels include part number, brand, and quantity for clear identification. Goods are inspected prior to shipment to ensure proper condition and authenticity.

ESD protection is maintained throughout packing, handling, and global transportation. Secure packaging provides reliable sealing and resistance during transit. Additional cushioning materials are applied when required to protect sensitive components.

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Weight(KG): 0.00kg-1.00kg Price(USD$) : USD$60.00
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74FCT162240CTPVCT Product Details:

The Luminary Micro / Texas Instruments 74FCT162240CTPVCT is a high-performance, integrated circuit (IC) designed for use in a wide range of electronic applications. This device is classified as a logic buffer, driver, receiver, or transceiver, which means it is responsible for managing and conditioning digital signals.

The 74FCT162240CTPVCT features a 4-bit per element, 4-element, 3-state output buffer configuration, packaged in a 48-pin SSOP (Shrink Small Outline Package) enclosure. This compact design allows for efficient space utilization in various electronic systems. The device is RoHS (Restriction of Hazardous Substances) compliant, ensuring it meets the necessary environmental regulations.

One of the key design challenges addressed by the 74FCT162240CTPVCT is the need for reliable signal management and buffering in complex digital circuits. The device's 3-state output capability allows for flexible signal control, enabling the connection of multiple devices to a shared data bus without conflicts. This feature makes the 74FCT162240CTPVCT well-suited for use in bus-oriented applications, such as memory interfaces, data communication systems, and peripheral device control.

The 74FCT162240CTPVCT operates within a wide temperature range of -40°C to 85°C, ensuring reliable performance in a variety of environmental conditions. Its supply voltage range of 4.5V to 5.5V aligns with the common power requirements of many digital electronics.

The primary advantages of the 74FCT162240CTPVCT include its high-speed operation, low power consumption, and robust 3-state output capability. These features make it an ideal choice for applications such as computer systems, telecommunications equipment, industrial control systems, and other digital electronics that require efficient signal management and buffering.

Regarding compatibility, the 74FCT162240CTPVCT is part of the 74FCT series, which is a family of logic devices from Luminary Micro / Texas Instruments. While there may be equivalent or alternative models available from other manufacturers, it is important to carefully review the specific features and characteristics of any substitute parts to ensure compatibility and performance match the requirements of the intended application.

74FCT162240CTPVCT Key Technical Attributes

Manufacturer Part Number: 74FCT162240CTPVCT

Manufacturer: Luminary Micro / Texas Instruments

Main Category: Integrated Circuits (ICs)

Small Classification: Logic - Buffers, Drivers, Receivers, Transceivers

74FCT162240CTPVCT Packing Size

Manufacturer's packaging: 48-SSOP

Encapsulation: SSOP48

Package: Tape & Reel (TR)

Package / Case: 48-BSSOP (0.295", 7.50mm Width)

74FCT162240CTPVCT Application

The 74FCT162240CTPVCT is designed for use in driving lines in bus-oriented systems. With its 3-state outputs, it is frequently used in systems that require efficient data buffers, transmission drivers, or receivers.

74FCT162240CTPVCT Features

This device features four inverting buffers with four bits per element. Each buffer has a 3-State output, enhancing component compatibility in bus-oriented systems by allowing output disabling. The operating voltage range is from 4.5 V to 5.5 V, ensuring compatibility with typical 5V systems. This design operates effectively within the industrial temperature ranges from -40°C to 85°C.

74FCT162240CTPVCT Quality and Safety Features

It is Lead-free and RoHS Compliant, affirming its consideration for environmental standards and user safety. Moisture Sensitivity Level is at 1, indicating that the device has unlimited shelf life under normal atmospheric conditions.

74FCT162240CTPVCT Compatibility

The 74FCT162240CTPVCT is surface mountable with a SSOP48 package, aligning well with automated production processes. Its logical setup and electrical interface allow for seamless integration with common 5V systems and the logic type supports extensive use in digital applications requiring an inverting buffer function.

74FCT162240CTPVCT Datasheet PDF

For the most accurate and detailed technical specifications and application guidelines for the 74FCT162240CTPVCT, download the datasheet PDF available on our website. We ensure to provide you with the most authoritative information document for your product choices and implementations.

Quality Distributor

IC-Components stands as a premium distributor of Luminary Micro / Texas Instruments components, including the reliable 74FCT162240CTPVCT. We assure the finest level of product authenticity and extensive logistical support. Visit our website to get a quote or to explore more about our services and offerings.

Frequently Asked Questions

I'm designing a high-speed digital system requiring 5V tolerance on inputs and outputs for interfacing with older 74LS logic. Will the 74FCT162240CTPVCT provide reliable 5V TTL compatibility, and what are the implications for signal integrity at higher frequencies compared to native 5V logic families?
The 74FCT162240CTPVCT is designed for a 4.5V to 5.5V supply range, which generally implies 5V TTL compatibility for its inputs and outputs. However, to ensure optimal performance and signal integrity at higher frequencies, especially when interfacing with 74LS, careful consideration of impedance matching, termination schemes, and power supply decoupling is crucial. While the 74FCT family offers improved speed and drive capabilities over older LS logic, direct 5V TTL input tolerance doesn't automatically guarantee flawless high-frequency operation without proper system design. The 74FCT162240CTPVCT's inherent faster edge rates might necessitate stricter layout practices to avoid reflections and crosstalk when interfacing with the slower, more robust 74LS family.
We are migrating a legacy design from an older Fairchild FCT part to the 74FCT162240CTPVCT. Are there any known functional differences or critical timing parameter discrepancies between older Fairchild FCT generations and this Texas Instruments 74FCT162240CTPVCT that we should be aware of during our redesign?
When migrating from older Fairchild FCT parts to the 74FCT162240CTPVCT from Luminary Micro/Texas Instruments, it's essential to meticulously compare the datasheets. While the "FCT" designation suggests functional equivalence, subtle differences in propagation delays, setup and hold times, and output drive characteristics can exist between different manufacturers' implementations and across different revisions of the FCT family. It's advisable to perform thorough timing analysis and functional testing to ensure the 74FCT162240CTPVCT meets the exact timing margins of your legacy design, especially if it operates near its performance limits. Pay close attention to any discrepancies in the electrical characteristics section of both datasheets.
What are the recommended decoupling capacitor values and placement strategies for the 74FCT162240CTPVCT when used in a noisy industrial environment operating at the higher end of its -40°C to 85°C temperature range?
For the 74FCT162240CTPVCT, robust decoupling is critical, especially in noisy industrial environments and at elevated temperatures. A good starting point is to use a combination of a larger electrolytic or tantalum capacitor (e.g., 10µF) and smaller ceramic bypass capacitors (e.g., 0.1µF and 0.01µF) placed as close as possible to the VCC and GND pins of the 74FCT162240CTPVCT. The ceramic capacitors provide high-frequency bypassing, which is essential for mitigating transient current demands during switching. In an industrial setting, consider increasing the quantity and reducing the trace length to these bypass capacitors to minimize inductance.
Can the 74FCT162240CTPVCT be used in applications where the input signals might momentarily exceed its 5.5V maximum supply voltage due to transient overvoltages, and what are the risks associated with such overstress conditions?
The 74FCT162240CTPVCT is specified for a supply voltage range of 4.5V to 5.5V. Applying input signals that momentarily exceed the absolute maximum input voltage rating (which is typically VCC + 0.5V or a fixed value like 6V, refer to the specific datasheet for the exact limit) can lead to device damage. Even if the device appears to function initially, such overstress conditions can degrade its long-term reliability, increase leakage currents, or cause permanent failure. For applications with potential for input overvoltage transients, protective circuitry such as series resistors and clamp diodes to VCC or ground should be implemented to safeguard the 74FCT162240CTPVCT.
In a battery-powered portable device, power sequencing is critical. What is the expected behavior of the 74FCT162240CTPVCT during power-up and power-down transitions when the supply voltage is slowly ramping between 0V and 4.5V? Are there any specific concerns regarding output states or internal latch-up?
During power-up and power-down with a slowly ramping supply voltage for the 74FCT162240CTPVCT, it's important to be aware of potential output glitched or indeterminate states. The FCT family generally does not have specific "brown-out" detection or guaranteed power-up sequencing. If the supply voltage is below the threshold where the logic gates reliably operate (typically around 2V for a 5V supply device), the outputs of the 74FCT162240CTPVCT may float or exhibit unpredictable behavior. To mitigate this, it's often recommended to either disable the outputs using the Output Enable (OE) pin until VCC is stable or ensure that upstream components do not drive the inputs during these transitions. The 74FCT162240CTPVCT is less prone to latch-up than older TTL families, but exceeding supply voltage limits or specific input/output conditions can still pose a risk.
We are looking for a direct replacement for a part number "FCT162240CTPVCT" with similar pinout and functionality for a design that needs to operate at industrial temperatures up to 105°C. Does the Luminary Micro / Texas Instruments 74FCT162240CTPVCT meet this requirement, or are there specific concerns with its extended temperature performance beyond the specified 85°C?
The provided specifications for the 74FCT162240CTPVCT indicate an operating temperature range of -40°C to 85°C (TA). Therefore, it is not suitable for applications requiring operation up to 105°C. Using the 74FCT162240CTPVCT beyond its rated temperature will likely lead to parameter drift, reduced performance, and potential device failure. For an industrial application requiring 105°C operation, you would need to find a different buffer/transceiver part number specifically rated for that temperature range, possibly from a different series or manufacturer, or investigate industrial-grade versions if available. Always verify the TA (ambient temperature) rating for the intended operating environment.
What are the implications of the 48-SSOP package (48-BSSOP) on thermal performance and board-level assembly yield when using the 74FCT162240CTPVCT in a densely populated, high-power circuit board? Are there any specific soldering profile recommendations to avoid issues with this encapsulation?
The 48-SSOP package for the 74FCT162240CTPVCT offers a compact footprint but can present thermal challenges in densely populated, high-power applications. Its relatively small surface area limits heat dissipation. While the specified operating temperature is up to 85°C, excessive power dissipation in the application could lead to junction temperatures exceeding this limit, even if the ambient temperature is lower. Proper PCB layout with adequate copper planes connected to the GND pins can aid in thermal management. For soldering, follow the manufacturer's recommended reflow profile for the 48-SSOP package, which is typically found in the packaging section of the datasheet or available from the manufacturer. This will ensure proper solder joint formation and minimize the risk of tombstoning or solder bridging, especially with the fine pitch of SSOP packages.
When implementing a complex bus system, we need to buffer both data and control signals. Can the inverting nature of the 74FCT162240CTPVCT's buffer elements be easily accommodated, or would it be more practical to use a non-inverting buffer for specific signal paths to avoid additional inversion logic and potential timing complications?
The 74FCT162240CTPVCT is an inverting buffer, meaning the output is the inverse of the input. While this can be incorporated into a design by adding another inversion stage if a non-inverting buffer is required, it introduces additional propagation delay and can complicate timing analysis. For complex bus systems where signal integrity and precise timing are paramount, it's often more straightforward and less error-prone to use non-inverting buffers if the design allows. If the 74FCT162240CTPVCT's 4-bit per element structure and 3-state capability are otherwise ideal, and you're comfortable managing the inversion, it can be used. However, for simpler integration and potentially better timing margins, consider if a non-inverting transceiver or buffer family would be a more direct fit for your specific bus signal requirements.
What are the typical power consumption characteristics of the 74FCT162240CTPVCT when driving loads of 24mA at 5.5V, and are there any specific power-saving features or modes to consider for battery-operated designs that might need to interface with this device?
The 74FCT162240CTPVCT, like most logic buffers, will consume significant power when actively driving loads. At maximum output current (24mA) and a supply voltage of 5.5V, the static and dynamic power consumption will be substantial. The datasheet provides typical values for ICC, which should be used to estimate power consumption. For battery-operated designs, the primary power-saving consideration with the 74FCT162240CTPVCT is its 3-state output capability. When the device is not actively driving a bus or signal, its outputs can be placed in the high-impedance (3-state) mode, significantly reducing dynamic power consumption. Ensuring the Output Enable (OE) pins are properly managed to disable outputs when not in use is crucial for conserving battery life. The device itself doesn't typically have dedicated low-power sleep modes.
In industrial control systems, reliable operation under varying environmental conditions is key. What potential failure mechanisms or performance degradations should a design engineer be aware of when using the 74FCT162240CTPVCT in applications that experience frequent temperature cycling or potential exposure to humidity and contaminants within its -40°C to 85°C operating range?
While the 74FCT162240CTPVCT is specified for a broad industrial temperature range, frequent temperature cycling can stress the solder joints and internal die connections, potentially leading to fatigue failures over time. Exposure to humidity and contaminants, even within the operating range, can lead to corrosion or leakage currents, especially if the PCB and component encapsulation are not adequately protected. For enhanced reliability in harsh industrial environments, consider conformal coating the populated PCB assembly. Additionally, ensuring robust power supply filtering and minimizing voltage transients will help protect the 74FCT162240CTPVCT from electrical stress that could be exacerbated by environmental factors. The Moisture Sensitivity Level (MSL) of 1 indicates it's suitable for unlimited shelf life without special handling before assembly, but this does not mean it is immune to environmental ingress after assembly.

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74FCT162240CTPVCT

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IC BUFFER INVERT 5.5V 48SSOP

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