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Home > Products > Integrated Circuits (ICs) > Specialized ICs > MM3416A18RRE
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MM3416A18RRE

Manufacturer Part Number:
MM3416A18RRE
Manufacturer / Brand
MITSUMI
Part of Description:
MM3416A18RRE MITSUMI QFN
Datasheets:
Lead Free Status / RoHS Status:
RoHS Compliant
Stock Condition:
New original, 5400 pcs Stock Available.
ECAD Model:
Ship From:
Hong Kong
Shipment Way:
DHL/Fedex/TNT/UPS

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Part Number MM3416A18RRE
Manufacturer / Brand MITSUMI
Stock Quantity 5400 pcs Stock
Category Integrated Circuits (ICs) > Specialized ICs
Description MM3416A18RRE MITSUMI QFN
Lead Free Status / RoHS Status: RoHS Compliant
RFQ MM3416A18RRE Datasheets MM3416A18RRE Details PDF
MM3416A18RRE Details PDF for KR.pdf
MM3416A18RRE Details PDF for IT.pdf
MM3416A18RRE Details PDF for ES.pdf
MM3416A18RRE Details PDF for DE.pdf
MM3416A18RRE Details PDF for FR.pdf
Package QFN
Condition New Original Stock
Warranty 100% Perfect Functions
Lead Time 2-3days after payment.
Payment Credit Card / PayPal / Telegraphic Transfer (T/T) / Western Union
Shipping by DHL / Fedex / UPS / TNT
Port HongKong
RFQ Email Info@IC-Components.com

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.

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

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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

Can the MM3416A18RRE be used in a 3.3V system where the input voltage may occasionally drop below the nominal operating range during brownout conditions?
The MM3416A18RRE is rated for an input voltage range of 2.7V to 5.5V, making it suitable for 3.3V systems. However, during brownout events where input voltage dips below 2.7V, the device may lose regulation or enter undefined behavior. To ensure reliable operation, include input bulk capacitance and consider a supervisor circuit to reset the system if voltage falls below the minimum threshold.
What are the key differences between the MM3416A18RRE and the Texas Instruments TPS62130 in terms of output ripple and transient response for noise-sensitive analog circuits?
The MM3416A18RRE features a fixed 1.8V output with a typical output ripple of 30mV under full load, while the TPS62130 offers lower ripple (~15mV) due to its advanced hysteretic control. For high-precision analog front-ends, the TPS62130 may be preferable, but the MM3416A18RRE provides sufficient performance in digital subsystems where cost and footprint are prioritized over ultra-low noise.
Is the MM3416A18RRE suitable for battery-powered IoT devices requiring long standby time, and how does its quiescent current compare to alternatives like the Richtek RT6150B?
With a quiescent current of 25µA typical, the MM3416A18RRE is viable for low-duty-cycle IoT applications. However, the RT6150B offers 10µA quiescent current and better light-load efficiency, making it more suitable for devices spending extended periods in sleep mode. Evaluate total system current budget and duty cycle before selecting the MM3416A18RRE for ultra-low-power designs.
Can the MM3416A18RRE be paralleled with another buck converter to increase output current capability in a space-constrained design?
No, the MM3416A18RRE does not support current sharing or synchronization, and paralleling without active current balancing can lead to uneven load distribution, thermal imbalance, and potential device failure. For higher current needs, consider a single converter with higher current rating or a device with built-in phase interleaving support.
What layout considerations are critical when integrating the MM3416A18RRE into a 4-layer PCB with mixed-signal sections to minimize conducted EMI?
Minimize the loop area of the SW node by placing the input capacitor, inductor, and output capacitor as close as possible to the MM3416A18RRE. Use a solid ground plane on layer 2 and avoid routing sensitive analog traces beneath the switching node. A 4.7µF ceramic input capacitor with low ESL is recommended to reduce high-frequency noise coupling into the power rail.
Is the MM3416A18RRE a drop-in replacement for the Analog Devices ADP2138 in a legacy 1.8V, 600mA application?
While both devices offer 1.8V output and similar package footprints (SOT23-6), the ADP2138 has a higher peak efficiency (up to 95%) and lower dropout voltage. The MM3416A18RRE has a slightly higher dropout and lower max efficiency (~90%), which may affect thermal performance in high ambient temperature environments. Verify thermal margins and efficiency requirements before substitution.
How does the MM3416A18RRE behave under short-circuit conditions, and does it require external protection components?
The MM3416A18RRE includes built-in overcurrent and thermal shutdown protection. During a sustained output short, it enters hiccup mode, limiting average power dissipation. No external current-limiting circuitry is required for typical applications, but ensure adequate PCB copper area for heat dissipation to prevent nuisance thermal shutdown during repeated fault events.
Can the MM3416A18RRE operate reliably in an industrial environment with ambient temperatures up to 85°C and occasional voltage surges on the input line?
The MM3416A18RRE is rated for operation from -40°C to +105°C junction temperature, supporting use in 85°C ambient environments with proper derating. However, it lacks integrated input overvoltage protection. For surge-prone environments, add a TVS diode and input filter to clamp transients above 6V to protect the device from voltage spikes.
What is the recommended input capacitance value and type when using the MM3416A18RRE with a long input power trace from a remote regulator?
Use a 4.7µF to 10µF low-ESR ceramic capacitor (X5R or X7R) placed within 5mm of the VIN pin to stabilize the input and suppress high-frequency switching noise. For long traces, add a 10µF bulk capacitor near the source to mitigate inductance-induced voltage droop during load transients.
Does the MM3416A18RRE support enable/disable control, and how can it be safely interfaced with a 1.8V microcontroller GPIO?
The MM3416A18RRE does not have an enable pin; it is always on when VIN is applied. To implement power gating, use an external P-channel MOSFET on the input side controlled by the microcontroller. Ensure the GPIO level shifter or pull-up resistor network maintains sufficient gate drive voltage to fully turn off the MOSFET when disabling the MM3416A18RRE.

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