Choose your country or region.

EnglishFrançaispolskiSlovenija한국의DeutschSvenskaSlovenskáMagyarországItaliaहिंदीрусскийTiếng ViệtSuomiespañolKongeriketPortuguêsภาษาไทยБългарски езикromânescČeštinaGaeilgeעִבְרִיתالعربيةPilipinoDanskMelayuIndonesiaHrvatskaفارسیNederlandTürk diliΕλλάδαRepublika e ShqipërisëአማርኛAzərbaycanEesti VabariikEuskeraБеларусьíslenskaBosnaAfrikaansIsiXhosaisiZuluCambodiaსაქართველოҚазақшаAyitiHausaКыргыз тилиGalegoCatalàCorsaKurdîLatviešuພາສາລາວlietuviųLëtzebuergeschmalaɡasʲМакедонскиMaoriМонголулсবাংলা ভাষারမြန်မာनेपालीپښتوChicheŵaCрпскиSesothoසිංහලKiswahiliТоҷикӣاردوУкраїнаO'zbekગુજરાતીಕನ್ನಡkannaḍaதமிழ் மொழி繁体中文
Home > Products > Integrated Circuits (ICs) > Interface - Analog Switches, Multiplexers, Demultiplexers > 74HCT4053PW,112
Nexperia USA Inc.
MFG SOT403.jpg ImageView larger image
Image may be representation.
See specs for product details.

74HCT4053PW,112

In Stock 303131 pcs Reference Price(In US Dollars)
1+
$0.1517
10+
$0.1225
30+
$0.11
100+
$0.0944
500+
$0.0874
1000+
$0.0832
Manufacturer Part Number:
74HCT4053PW,112
Manufacturer / Brand
Nexperia USA Inc.
Part of Description:
IC SWITCH SPDTX3 120OHM 16TSSOP
Datasheets:
74HCT4053PW,112(1).pdf74HCT4053PW,112(2).pdf74HCT4053PW,112(3).pdf74HCT4053PW,112(4).pdf74HCT4053PW,112(5).pdf
Lead Free Status / RoHS Status:
ROHS3 Compliant
Stock Condition:
New original, 303131 pcs Stock Available.
ECAD Model:
Ship From:
Hong Kong
Shipment Way:
DHL/Fedex/TNT/UPS

Inquiry Online

Please complete all required fields with your contact information.Click "SUBMIT REQUEST" we will contact you shortly by email. Or Email us: Info@IC-Components.com
Part Number
Manufacturer
Require Quantity
Target Price(USD)
Company Name
Contact Name
E-mail
Phone
Message
Please enter Verify Code and click "Submit"
Part Number 74HCT4053PW,112
Manufacturer / Brand Nexperia USA Inc.
Stock Quantity 303131 pcs Stock
Category Integrated Circuits (ICs) > Interface - Analog Switches, Multiplexers, Demultiplexers
Description IC SWITCH SPDTX3 120OHM 16TSSOP
Lead Free Status / RoHS Status: ROHS3 Compliant
Voltage - Supply, Single (V+) 4.5V ~ 5.5V
Voltage - Supply, Dual (V±) ±1V ~ 5V
Switch Time (Ton, Toff) (Max) 34ns, 31ns
Switch Circuit SPDT
Supplier Device Package 16-TSSOP
Series -
Package / Case 16-TSSOP (0.173', 4.40mm Width)
Package Tube
Operating Temperature -40°C ~ 125°C (TA)
On-State Resistance (Max) 120Ohm
Number of Circuits 3
Multiplexer/Demultiplexer Circuit 2:1
Mounting Type Surface Mount
Current - Leakage (IS(off)) (Max) 100nA
Crosstalk -60dB @ 1MHz
Charge Injection -
Channel-to-Channel Matching (ΔRon) 6Ohm
Channel Capacitance (CS(off), CD(off)) 3.5pF
Base Product Number 74HCT4053
-3db Bandwidth 170MHz

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.

QC(Part Testing by IC Components)Quality Warranty

We can offer worldwide express delivery service, such as DHLor FedEx or TNT or UPS or other forwarder for shipment.

Global Shipment by DHL/FedEx/TNT/UPS

Shipping Fees reference DHL/FedEx
1). You can offer your express delivery account for shipment, ifyou haven’t any express account for shipment, we can offer our account inadvance.
2). Use our account for shipment, Shipment charges(Reference DHL/FedEx, Different Countries has different price.)
Shipment charges: (Reference DHL and FedEX)
Weight(KG): 0.00kg-1.00kg Price(USD$) : USD$60.00
Weight(KG): 1.00kg-2.00kg Price(USD$) : USD$80.00
* The price of cost is reference with DHL/FedEx. The detail charges, please contact us. Different country the express charges are different.



We accept the payment terms: Telegraphic Transfer(T/T), Credit Card, PayPal and Western Union.

PayPal:

PayPal Bank Information:
Company Name : IC COMPONENTS LTD
Paypal ID: PayPal@IC-Components.com

BANK TRANSFAR (Telegraphic Transfer)

Payment For Telegraphic Transfers:
Company Name : IC COMPONENTS LTD Beneficiary Account Number : 549-100669-701
Beneficiary Bank name : Bank of Communications (Hong Kong) Ltd Beneficiary Bank Code : 382 (for local payment)
Beneficiary Bank SWIFT : COMMHKHK
Beneficiary Bank Address : Tsuen Wan Market Street Branch 53 Market Street, Tsuen Wan N.T., Hong Kong

Any inquires or questions, please kindly contact us Email: Info@IC-Components.com


Frequently Asked Questions

How does the 74HCT4053PW handle voltage level translation when interfacing between a 3.3V microcontroller and a 5V sensor in an industrial control system?
The 74HCT4053PW supports single-supply operation from 4.5V to 5.5V, making it unsuitable for direct interface with 3.3V logic without level shifting. While HCT family devices accept 5V input thresholds on VCC = 4.5V, their input high threshold is approximately 2.0V, which may not reliably recognize 3.3V signals at the lower edge. For robust bidirectional level translation in mixed-voltage systems, a dedicated level translator IC is recommended over relying on the 74HCT4053PW’s limited TTL-compatible inputs.
What are the timing implications of cascading multiple 74HCT4053PW multiplexers in a signal routing chain for high-speed analog video switching?
Each 74HCT4053PW contributes approximately 34ns turn-on delay and 31ns turn-off delay, with a channel capacitance of 3.5pF. In cascaded configurations, these delays accumulate, potentially exceeding the 170MHz bandwidth limit. For analog video signals above 10MHz, cumulative propagation delay and channel-to-channel mismatch (6Ω Ron variation) can cause phase distortion and reduced signal integrity, making the device suboptimal for multi-stage video routing without buffering.
Can the 74HCT4053PW be used to switch differential signals such as LVDS in a high-speed data acquisition system?
No, the 74HCT4053PW is designed for unipolar or pseudo-differential analog/digital signals, not true differential pairs like LVDS. Its 120Ω on-resistance and lack of matched channel characteristics introduce skew and common-mode noise degradation. Differential signaling requires dedicated switches with matched propagation delay and low crosstalk (< -80dB), which exceeds the 74HCT4053PW’s -60dB @ 1MHz specification. Use a device like TI SN74LVC8T245 or Analog Devices ADG732 instead.
What precautions should be taken when replacing the 74HCT4053PW with CD4053BPW in an existing design?
Although both are functionally equivalent, the CD4053BPW operates over a wider supply range (-5.5V to +18V dual supply) and has higher power consumption. Migrating from 74HCT4053PW to CD4053BPW requires verifying that the 5V supply margin remains adequate and that leakage current (higher in CMOS vs HCT) does not affect low-level signals. Additionally, the CD4053BPW lacks HCT’s TTL input compatibility, so input logic levels must stay within CMOS thresholds.
Is the 74HCT4053PW suitable for switching RF signals near its 170MHz bandwidth limit?
The 74HCT4053PW has a -3dB bandwidth of 170MHz, but this applies only under ideal load conditions. At frequencies approaching this limit, insertion loss increases due to channel capacitance (3.5pF) and resistive loading. Practical RF switching requires return loss better than -30dB and flat group delay—parameters not guaranteed by the datasheet. For RF applications, use a dedicated RF switch like the NXP PMP1308A with optimized impedance matching and lower parasitic capacitance.
How does the 74HCT4053PW perform under continuous switching in long-term reliability testing for industrial automation equipment?
The 74HCT4053PW is rated for -40°C to 125°C operation and meets AEC-Q100 Grade 1 requirements when sourced through qualified automotive suppliers. However, continuous toggling at high frequency increases junction temperature and electromigration risk. Derating suggests limiting switching activity to <10% duty cycle or using sleep modes where possible. For mission-critical systems, periodic derating analysis and thermal modeling of the 16-TSSOP package under forced convection should be performed.
Can the 74HCT4053PW be configured as a bidirectional analog switch for I2C bus isolation without additional circuitry?
While each circuit in the 74HCT4053PW is unidirectional, the three independent SPDT switches could theoretically isolate three I2C lines. However, the device lacks open-drain outputs and cannot drive SDA without external pull-ups. Moreover, charge injection and leakage current (100nA max) may corrupt low-voltage I2C signals at 1.8V or 3.3V levels. Isolation should be implemented using dedicated bus transceivers like PCA9306 or MOSFET-based solutions with proper slew rate control.
What configuration considerations exist when using the 74HCT4053PW for digital signal path selection in a multi-sensor ADC frontend?
When selecting between two analog inputs for a 12-bit ADC, ensure that the 74HCT4053PW’s 120Ω Ron and 3.5pF off-capacitance do not significantly load the source or distort settling time. For high-impedance sources (<1kΩ), the Ron-induced voltage drop may exceed ADC resolution at low full-scale ranges. Additionally, channel-to-channel matching (6Ω variation) affects gain accuracy in precision measurement systems. Calibration or buffer amplifiers before switching are advised for critical applications.
Are there any known issues with the 74HCT4053PW when driven by 5V control signals while powered at 4.5V in battery-powered designs?
The 74HCT4053PW supports 5V tolerant inputs only when VCC is ≥4.5V. If powered at exactly 4.5V and control signals swing to 5V, input protection diodes conduct slightly, potentially increasing power consumption and affecting noise margins. In battery-constrained systems, operating the device below 4.5V (e.g., 3.3V core) invalidates HCT input thresholds and risks undefined logic states. Maintain VCC within 4.5–5.5V range and avoid overdriving inputs unless specified in absolute maximum ratings.
How does the 74HCT4053PW compare to the NLAS4053DTR2G in terms of ESD protection and layout sensitivity for automotive applications?
The NLAS4053DTR2G is an automotive-grade variant of the 4053 family with enhanced ESD protection (typically 4kV HBM) and tighter process control, whereas the 74HCT4053PW offers standard industrial ESD performance (~2kV). The NLAS part also features lower leakage and improved noise immunity. For automotive use requiring ISO 16750 compliance, the NLAS4053DTR2G is preferred despite similar pinout. Migration requires updating part number and verifying alternate marking on TSSOP-16 packages.

Recent Reviews

Leave Comment
Hello, you have not logged in, please log in
User Login

Forgot password?

No account yet? Register now

Tips
Please speak legally
Your email will be hidden
Please complete all required fields ( denoted with* )
Mark
5.0

You May Also Be Interested In:


74HCT4053PW,112

74HCT4053PW,112

Nexperia USA Inc.

IC SWITCH SPDTX3 120OHM 16TSSOP

In Stock: 303131

SUBMIT RFQ