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Home > Products > Integrated Circuits (ICs) > Interface - Analog Switches, Multiplexers, Demultiplexers > MAX4053EEE
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MAX4053EEE

In Stock 43708 pcs Reference Price(In US Dollars)
1+
$0.4927
Manufacturer Part Number:
MAX4053EEE
Manufacturer / Brand
Analog Devices Inc./Maxim Integrated
Part of Description:
IC SWITCH SPDT X 3 100OHM 16QSOP
Datasheets:
MAX4053EEE(1).pdfMAX4053EEE(2).pdfMAX4053EEE(3).pdfMAX4053EEE(4).pdfMAX4053EEE(5).pdfMAX4053EEE(6).pdf
Lead Free Status / RoHS Status:
RoHS non-compliant
Stock Condition:
New original, 43708 pcs Stock Available.
ECAD Model:
Ship From:
Hong Kong
Shipment Way:
DHL/Fedex/TNT/UPS

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Part Number MAX4053EEE
Manufacturer / Brand Analog Devices Inc./Maxim Integrated
Stock Quantity 43708 pcs Stock
Category Integrated Circuits (ICs) > Interface - Analog Switches, Multiplexers, Demultiplexers
Description IC SWITCH SPDT X 3 100OHM 16QSOP
Lead Free Status / RoHS Status: RoHS non-compliant
RFQ MAX4053EEE Datasheets MAX4053EEE Details PDF
MAX4053EEE Details PDF for KR.pdf
MAX4053EEE Details PDF for IT.pdf
MAX4053EEE Details PDF for ES.pdf
MAX4053EEE Details PDF for DE.pdf
MAX4053EEE Details PDF for FR.pdf
Voltage - Supply, Single (V+) 2V ~ 16V
Voltage - Supply, Dual (V±) ±2.7V ~ 8V
Switch Time (Ton, Toff) (Max) 175ns, 150ns
Switch Circuit SPDT
Supplier Device Package 16-QSOP
Series -
Package / Case 16-SSOP (0.154', 3.90mm Width)
Package Tube
Operating Temperature -40°C ~ 85°C (TA)
On-State Resistance (Max) 100Ohm
Number of Circuits 3
Multiplexer/Demultiplexer Circuit 2:1
Mounting Type Surface Mount
Current - Leakage (IS(off)) (Max) 1nA
Crosstalk -90dB @ 100kHz
Charge Injection 2pC
Channel-to-Channel Matching (ΔRon) 12Ohm (Max)
Channel Capacitance (CS(off), CD(off)) 2pF, 2pF
Base Product Number MAX4053
-3db Bandwidth -

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

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Shipping Fees reference DHL/FedEx
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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.



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MAX4053EEE Product Details:

The MAX4053EEE is a high-performance integrated circuit (IC) switch manufactured by Maxim Integrated. It belongs to the category of Interface - Analog Switches, Multiplexers, and Demultiplexers, making it a versatile device for various analog signal routing and control applications.

The key features of the MAX4053EEE include its ability to handle a wide range of supply voltages, from 2V to 16V in single-supply operation, or ±2.7V to ±8V in dual-supply operation. This wide voltage range makes it suitable for use in a variety of electronic systems, from low-power portable devices to high-voltage industrial applications.

The device is designed to address common design challenges, such as the need for low on-state resistance (100Ω max), fast switching times (175ns max turn-on, 150ns max turn-off), and low charge injection (2pC). These specifications ensure reliable and efficient signal switching, which is crucial in applications requiring precise control and minimal signal distortion.

The MAX4053EEE features a 1:3 multiplexer/demultiplexer circuit, allowing for the routing of analog signals between multiple input and output channels. The low channel-to-channel matching (12Ω max) and excellent crosstalk performance (-90dB @ 100kHz) further enhance the device's ability to maintain signal integrity and minimize cross-talk between channels.

The MAX4053EEE is well-suited for a wide range of applications, including:

- Instrumentation and test equipment

- Analog signal routing and control

- Data acquisition systems

- Industrial automation and control

- Medical equipment

- Communication systems

The device is available in a 16-QSOP (Quad Small Outline Package) enclosure, which provides a compact and efficient form factor for integration into various electronic systems. The package is RoHS non-compliant, containing lead.

Regarding equivalent or alternative models, the MAX4053EEE has several similar products within the Maxim Integrated portfolio, including the MAX4052, MAX4051, and MAX4050 series. These devices share similar functionality, specifications, and packaging options, allowing engineers to select the most appropriate solution for their specific design requirements.

MAX4053EEE Image
MAX4053EEE (1)

MAX4053EEE Key Technical Attributes

Manufacturer Part Number MAX4053EEE

Manufacturer Maxim Integrated

Base Part Number MAX4053

MAX4053EEE Packing Size

Package Type 16-QSOP

Packaging Material Tube

Supplier Device Package 16-QSOP

Package/Case 16-SSOP (0.154", 3.90mm Width)

Moisture Sensitivity Level (MSL) 1 (Unlimited)

MAX4053EEE Application

Integrated Circuits (ICs) specifically for Interface - Analog Switches, Multiplexers, Demultiplexers

MAX4053EEE Features

This model is a multifunctional IC featuring three circuit switches with a 2:1 configuration offering versatile switching capabilities within a circuit. It has an on-state resistance of 100 Ohm and operates efficiently within a temperature range of -40°C to 85°C. Its dual supply voltage ranges from ±2.7 V to 8 V, while the single supply voltage varies from 2 V to 16 V. Both the off-current and switch timing are optimized for quick response with minimal leakage, rendering them suitable for high-performance systems. The precision of the channel-to-channel matching is captured at a maximum of 12 Ohm, ensuring uniform performance across all channels. Additionally, it has a low crosstalk of -90dB at 100kHz, which contributes to superior signal integrity.

MAX4053EEE Quality and Safety Features

Contains lead (RoHS non-compliant), ensuring high reliability in applications where RoHS compliance is not required. The model is also classified under Moisture Sensitivity Level 1, providing unrestricted shelf life and stability when exposed to ambient moisture levels.

MAX4053EEE Compatibility

Designed for analog signal routing in various electronic systems, compatible with low power devices due to its extensive voltage supply range and low current leakage.

MAX4053EEE Datasheet PDF

For comprehensive specifications and all technical details about the MAX4053EEE, please download the most authoritative datasheet from our website on the product page. This will help ensure you are utilizing the most accurate and extensive information for your considerations and designs.

Quality Distributor

At IC-Components, we pride ourselves on being a premium distributor for Maxim Integrated products, including the MAX4053EEE. We guarantee authentic and high-quality products, backed by our expert service. For personalized service and competitive quotes, please visit our website and connect with our responsive support team who are ready to assist you with your needs swiftly.

Frequently Asked Questions

Can the MAX4053EEE be used in a 3.3V single-supply system for switching analog sensor signals, and what are the voltage headroom limitations for proper on-state conduction?
Yes, the MAX4053EEE supports single-supply operation from 2V to 16V, making it compatible with 3.3V systems. However, due to its typical on-resistance of 70Ω (max 100Ω) and channel-to-channel matching of 12Ω, signal attenuation and nonlinearity may occur if the analog signal approaches the supply rails. For optimal performance, keep input signals at least 1V away from V+ and ground to avoid distortion caused by reduced gate drive near rail limits. The MAX4053EEE is suitable for low-level sensor multiplexing in 3.3V designs but requires careful signal conditioning if high linearity is required.
What are the key differences between the MAX4053EEE and the MAX4678EUE+ when replacing one with the other in a battery-powered industrial data acquisition system?
The MAX4053EEE and MAX4678EUE+ differ significantly in power efficiency and integration. The MAX4053EEE operates down to 2V and has lower leakage (1nA max), making it better suited for low-voltage, low-power applications. In contrast, the MAX4678EUE+ requires a minimum of 2.7V and has higher quiescent current, reducing battery life. Additionally, the MAX4053EEE offers three independent SPDT switches with better crosstalk performance (-90dB @ 100kHz), while the MAX4678 integrates four SPDT switches but with higher charge injection (8pC). Replacing the MAX4053EEE with the MAX4678 may require redesigning power supply margins and filtering due to increased noise coupling.
How does the charge injection of 2pC in the MAX4053EEE affect high-impedance sensor signal paths, and what mitigation techniques are recommended?
The MAX4053EEE’s low charge injection of 2pC minimizes voltage glitches when switching high-impedance sources such as piezoelectric sensors or pH probes. However, in precision applications with source impedances above 100kΩ, even this small charge injection can induce microvolt-level errors. To mitigate this, use a guard ring around the switch output, add a small feedback capacitor (1–10pF) across the load, or employ a sample-and-hold circuit after the switch. These techniques reduce settling time errors and stabilize the signal before ADC conversion.
Is the MAX4053EEE suitable for multiplexing audio signals in a professional audio mixer, given its on-resistance and crosstalk specifications?
The MAX4053EEE can be used for low-level audio signal routing, but its 100Ω max on-resistance may introduce signal attenuation and distortion when driving low-impedance loads (e.g., <10kΩ). Additionally, while crosstalk is excellent at -90dB @ 100kHz, audio signals typically occupy 20Hz–20kHz, where performance may degrade slightly. For line-level audio, buffering with op-amps before and after the switch is recommended to isolate impedance effects. The MAX4053EEE is acceptable for cost-sensitive audio designs but not ideal for high-fidelity applications requiring ultra-low THD.
Can the MAX4053EEE operate reliably in an automotive under-hood environment with temperatures cycling between -40°C and 105°C?
The MAX4053EEE is rated for -40°C to +85°C ambient temperature (TA), so it is not suitable for sustained operation at 105°C. While short-term excursions above 85°C may be tolerated, long-term exposure reduces reliability and increases leakage current. For automotive under-hood use, consider automotive-grade alternatives like the MAX14759EEE+ (AEC-Q100 qualified, -40°C to +125°C). If the MAX4053EEE must be used, ensure it is mounted in a thermally controlled compartment and derate supply voltage to minimize self-heating.
What are the implications of using the MAX4053EEE in a dual-supply ±5V configuration for bipolar signal switching, and how does it compare to single-supply operation?
The MAX4053EEE supports dual-supply operation from ±2.7V to ±8V, making ±5V a valid configuration. In this mode, it can switch bipolar analog signals (e.g., ±4V) with minimal distortion, as the full signal swing remains within the supply rails. Compared to single-supply operation, dual-supply eliminates the need for DC biasing, simplifying signal chain design. However, ensure control logic levels are compatible with the negative supply (e.g., use level translators if driving EN pins from a 3.3V microcontroller). The MAX4053EEE’s low leakage and matched Ron make it well-suited for precision bipolar multiplexing in instrumentation.
How does the 16-QSOP package of the MAX4053EEE impact PCB layout in high-density industrial control boards, and what thermal considerations apply?
The MAX4053EEE in a 16-QSOP (3.90mm width) package allows compact placement but requires careful PCB layout due to fine 0.65mm pitch. Use a solid ground plane beneath the device and route high-impedance analog traces away from digital control lines to minimize coupling. The package has low thermal mass, so self-heating is minimal under normal loads (<10mA per channel). However, in enclosed industrial enclosures with poor airflow, cumulative heat from adjacent components may raise local temperature. Ensure adequate spacing and avoid placing heat sources directly above the MAX4053EEE to maintain reliable operation within its -40°C to +85°C range.
What precautions are necessary when replacing a failed MAX4053EEE in a field-deployed medical device, especially regarding RoHS compliance and long-term availability?
The MAX4053EEE is RoHS non-compliant (contains lead), which may pose regulatory challenges in medical devices requiring full RoHS adherence. Before replacement, verify if your device’s certification allows leaded components in non-user-accessible areas. Additionally, the MAX4053EEE is not recommended for new designs; consider migrating to the lead-free MAX4677EEE+ for future-proofing. For immediate replacement, source from authorized distributors like Digi-Key (MAX4053EEE-ND) to avoid counterfeit parts. Always perform functional and leakage testing post-replacement, as aging switches may exhibit increased Ron or leakage over time.
Can the MAX4053EEE be used to multiplex thermocouple signals in a temperature monitoring system, and what design considerations apply for noise and accuracy?
Yes, the MAX4053EEE can multiplex thermocouple signals due to its low leakage (1nA max) and low charge injection (2pC), which minimize offset errors. However, its 100Ω on-resistance can interact with high source impedance of unamplified thermocouples, causing voltage drop errors. Always use a low-noise instrumentation amplifier after the switch and implement cold-junction compensation. Shield analog traces and use guard rings to reduce EMI pickup. The MAX4053EEE is suitable for moderate-accuracy systems but not for high-precision (<0.1°C) applications without additional signal conditioning.
How does the switch time (175ns Ton, 150ns Toff) of the MAX4053EEE affect its use in high-speed data acquisition systems sampling at 100kSPS?
With a total switching time under 200ns, the MAX4053EEE is fast enough for 100kSPS systems, where each channel may be active for 10µs or more. However, account for settling time due to RC effects from on-resistance (100Ω) and load capacitance. For a 1nF load, the RC time constant is ~100ns, requiring at least 500ns settling time for 12-bit accuracy. Include a guard interval between switch activation and ADC sampling. The MAX4053EEE is viable for multiplexed 100kSPS systems but requires timing analysis to avoid sampling during transient response.

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