XC6206P282MR

UMW

40DB@(1KHZ) 100MA 240MV@(50MA) F

53161 Pcs New Original In Stock

Linear Voltage Regulator IC Positive Fixed 1 Output 100mA SOT-23

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5.0 / 5.0 - (318 Ratings)

XC6206P282MR

Name: UMW XC6206P282MR
Brand: UMW
SKU: XC6206P282MR
Price: 0.0137 USD
Availability: InStock
Rating: 5.0 (318 reviews)

Product Overview

11037601

DiGi Electronics Part Number

XC6206P282MR-DG

Manufacturer

UMW

Manufacturer Product Number XC6206P282MR

Description

40DB@(1KHZ) 100MA 240MV@(50MA) F

Inventory

53161 Pcs New Original In Stock

Detailed Description Linear Voltage Regulator IC Positive Fixed 1 Output 100mA SOT-23

See all Voltage Regulators - Linear, Low Drop Out (LDO) Regulators

Datasheet XC6206P282MR Datasheet

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Minimum 1

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Basic cost: USD 70.00

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In Stock (All prices are in USD)

QTY Target Price Total Price
50 0.0137 0.6850
500 0.0107 5.3500
3000 0.0088 26.4000
6000 0.0077 46.2000
24000 0.0069 165.6000
51000 0.0065 331.5000

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XC6206P282MR Technical Specifications

Datasheet & Documents

Datasheets

Download XC6206P282MR Product Specification (PDF)

HTML Datasheet

XC6206P282MR-DG

Environmental & Export Classification

RoHS Status ROHS3 Compliant

Moisture Sensitivity Level (MSL) 1 (Unlimited)

REACH Status REACH Unaffected

ECCN EAR99

HTSUS 8542.39.0001

Additional Information

Other Names

4518-XC6206P282MRCT

4518-XC6206P282MRDKR

4518-XC6206P282MRTR

Standard Package

3,000

Reviews

5.0/5.0-(Show up to 5 Ratings)

Purel***aceful

Dec 02, 2025

5.0

The response time from the customer service team was impressive, and they helped resolve my issue promptly.

Ne***ova

Dec 02, 2025

5.0

I was amazed by how swiftly my order was shipped and delivered.

Horiz***haser

Dec 02, 2025

5.0

DiGi Electronics offers a seamless interface that reduces shopping stress.

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Frequently Asked Questions (FAQ)

How does the XC6206P282MR perform in battery-powered designs when input voltage drops close to the 2.8V fixed output due to its 240mV dropout at 50mA?

The XC6206P282MR maintains regulation down to a dropout voltage of 240mV at 50mA, meaning it can operate effectively with an input as low as 3.04V. In battery-powered applications, such as single-cell Li-ion or 3xAA setups, this allows sustained operation into deeper discharge cycles. However, designers must account for load transients and temperature effects, as dropout increases slightly under full 100mA load or at temperature extremes. For reliable performance near dropout, use a low-ESR ceramic output capacitor (≥1μF) and derate max current to 80mA to maintain headroom and minimize risk of brownout.

Can the XC6206P282MR replace the MCP1700T-28 in a space-constrained IoT sensor node, and what are the key differences affecting thermal performance?

Yes, the XC6206P282MR is a viable drop-in replacement for the MCP1700T-28 in low-power sensor nodes, both being SOT-23-3 fixed 2.8V regulators. However, the XC6206P282MR has a slightly higher dropout voltage (240mV vs. 178mV @ 50mA at 2.8V) and lower PSRR (40dB @ 1kHz vs. 60dB), which may affect noise sensitivity in RF or analog front-end stages. Thermally, both have similar θJA (~200°C/W), but the XC6206's overcurrent protection helps mitigate risk during fault conditions. Ensure adequate PCB copper for heat dissipation, especially if Vin exceeds 6V or ambient exceeds 60°C.

What protection limitations should I consider when using the XC6206P282MR in automotive or industrial environments with potential load dumps or reverse polarity?

The XC6206P282MR includes overcurrent and short-circuit protection but lacks built-in reverse polarity and transient voltage protection. In automotive or industrial settings, where load dumps can exceed 24V or reverse battery events occur, the device’s 8V absolute max input rating poses a reliability risk. To prevent damage, always pair the XC6206P282MR with an external series Schottky diode for reverse protection and a TVS diode (e.g., SMAJ5.0A) at the input to clamp transients to safe levels below 8V. Also, verify operating temperature alignment—while the device supports -25°C to 80°C, some industrial applications may require wider ranges.

How does the 40dB PSRR at 1kHz of the XC6206P282MR impact its suitability for powering noise-sensitive analog components like ADCs or RF transceivers?

With 40dB PSRR at 1kHz, the XC6206P282MR offers moderate noise suppression, making it usable for low-bandwidth sensors or digital logic, but potentially insufficient for high-precision ADCs or RF front-ends requiring >60dB PSRR. For mixed-signal designs, evaluate whether switching noise from DC-DC converters couples into the 2.8V rail. Mitigation strategies include adding a ferrite bead and pi-filter (e.g., 10Ω + 1μF ceramic) post-regulator, minimizing input trace inductance, and using a dedicated ground plane. In critical applications, consider supplementing with a low-noise LDO like the TPS7A20 or verify system-level noise meets specifications.

What are the PCB layout best practices to ensure stable operation of the XC6206P282MR given its reliance on ceramic output capacitors?

To ensure stability and low noise, place a 1μF to 10μF X5R/X7R ceramic capacitor as close as possible to the VOUT and GND pins of the XC6206P282MR, minimizing trace length to reduce ESR and ESL. Avoid using tantalum or aluminum electrolytic capacitors due to higher ESR risks. Use wide, short traces for all connections, maintain a solid ground plane underneath the device, and ensure thermal vias (if additional cooling is needed) are placed in the GND pad if available. Proper layout helps maintain PSRR performance and prevents oscillation during load transients, especially critical in portable or high-density designs.

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