PR32MA11NTZF

Sharp Microelectronics

SSR RELAY SPST-NO 150MA 0-240V

4272 Pcs New Original In Stock

Solid State SPST-NO (1 Form A) 6-DIP (0.300", 7.62mm), 5 Leads

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5.0 / 5.0 - (57 Ratings)

PR32MA11NTZF

Name: Sharp Microelectronics PR32MA11NTZF
Brand: Sharp Microelectronics
SKU: PR32MA11NTZF
Price: 1.0346 USD
Availability: InStock
Rating: 5.0 (57 reviews)

Product Overview

7928867

DiGi Electronics Part Number

PR32MA11NTZF-DG

Manufacturer

Sharp Microelectronics

Manufacturer Product Number PR32MA11NTZF

Description

SSR RELAY SPST-NO 150MA 0-240V

Inventory

4272 Pcs New Original In Stock

Detailed Description Solid State SPST-NO (1 Form A) 6-DIP (0.300", 7.62mm), 5 Leads

See all Solid State Relays

Datasheet PR32MA11NTZF Datasheet

Quantity
Minimum 1

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Worldwide Delivery in 3-5 Business Days

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Freight

Basic cost: USD 70.00

Actual cost may vary depending on weight and destination

Shipping method

Shipped from Hong Kong via FedEx/DHL/UPS/TNT

Delivery Time

In-stock items: Ready to ship in 1-2 days

Transit time: 3-5 business days (FedEx/DHL/UPS)

Special requests? Contact us: [email protected]

In Stock (All prices are in USD)

QTY Target Price Total Price
1 1.0346 1.0346
200 0.4136 82.7200
500 0.3995 199.7500
1000 0.3924 392.4000

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PR32MA11NTZF Technical Specifications

Datasheet & Documents

Datasheets

Download PR32MA11NTZF Product Specification (PDF)

HTML Datasheet

PR32MA11NTZF-DG

Environmental & Export Classification

RoHS Status RoHS Compliant

Moisture Sensitivity Level (MSL) 1 (Unlimited)

ECCN EAR99

HTSUS 8536.41.0030

Additional Information

Other Names

425-2604-5

PR32MA11NTZF-DG

Standard Package

Reviews

5.0/5.0-(Show up to 5 Ratings)

Mor***gDew

December 02, 2025

5.0

Shipping was faster than anticipated, and the packaging was environmentally responsible.

Fizz***dFun

December 02, 2025

5.0

Their logistics tracking system is smooth and easy to use, giving peace of mind.

Qui***ath

December 02, 2025

5.0

物流速度非常快，包装也很环保，让我非常满意。

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Frequently Asked Questions (FAQ)

Can I replace the discontinued Sharp Microelectronics PR32MA11NTZF SSR with a modern equivalent like the Panasonic AQH3211 or Crydom CMX60D10 without redesigning my PCB or control logic?

The PR32MA11NTZF is a 150mA, 240VAC SPST-NO solid-state relay with a 1.2VDC input and 6-DIP through-hole package. While the Panasonic AQH3211 offers similar voltage and form factor, it has a higher input current requirement (typically 5mA vs. ~1.6mA for the PR32MA11NTZF), which may overload low-power microcontroller GPIOs. The Crydom CMX60D10 supports higher load currents but uses a different pinout and requires more input drive. Direct drop-in replacement is not recommended—verify input current compatibility, pin mapping, and thermal performance before substitution. Consider the Omron G3VM-61VR as a closer functional match with similar input characteristics and DIP-6 footprint.

What are the risks of using the PR32MA11NTZF to switch inductive loads like small AC motors or solenoids, and how can I mitigate voltage transients?

The PR32MA11NTZF lacks built-in snubber circuits and is rated only for 150mA resistive loads. Inductive loads generate back-EMF during turn-off, risking premature failure of the internal triac or MOSFET output. This can cause latent failures or reduced lifespan even if the relay initially works. To mitigate, add an external RC snubber (e.g., 100Ω + 0.1µF rated for ≥250VAC) across the output terminals and consider a transient voltage suppressor (TVS) diode. Always derate the load current by at least 30% when switching inductive loads and ensure the load’s inrush current does not exceed the relay’s surge rating.

Is the PR32MA11NTZF suitable for zero-crossing detection in precision timing applications, and how does its switching behavior compare to non-zero-crossing SSRs like the TE Connectivity CPC1017N?

The PR32MA11NTZF is not a zero-crossing switch—it turns on immediately upon input activation, which can cause high inrush currents and EMI when switching near voltage peaks. This makes it poorly suited for precision timing or sensitive EMI environments. In contrast, zero-crossing SSRs like the CPC1017N delay turn-on until the AC waveform crosses zero, reducing stress and noise. If your application requires clean switching (e.g., lighting control, motor soft-start), avoid the PR32MA11NTZF and opt for a zero-crossing variant. However, for fast-response applications like phase-angle control, its instantaneous switching may be acceptable with proper filtering.

Given that the PR32MA11NTZF is discontinued at Digi-Key but still available in limited stock, what long-term reliability risks should I consider before designing it into a new product?

Designing in a discontinued component like the PR32MA11NTZF introduces significant supply chain and lifecycle risks. Sharp Microelectronics has likely ended production support, meaning no future revisions, reliability data updates, or failure analysis assistance. Remaining stock may be from older batches with unknown storage history, increasing the risk of latent defects. Additionally, second-sourcing becomes critical—identify and qualify at least one alternative (e.g., Vishay VOT8025AB or IXYS CPC1706Y) during design. Implement a last-time buy strategy if committed, and consider redesigning with a currently supported SSR to avoid future obsolescence-driven respins.

How does the thermal performance of the PR32MA11NTZF compare to similar DIP-packaged SSRs when operating near its 150mA load limit in an enclosed industrial control panel?

The PR32MA11NTZF has a typical on-resistance that generates heat proportional to I²R losses—even at 150mA, power dissipation can reach ~50–70mW, which may cause significant temperature rise in enclosed, poorly ventilated environments. Unlike higher-current SSRs with larger thermal pads or metal tabs, this 6-DIP package relies solely on PCB copper for heat sinking. In high-ambient-temperature enclosures (>40°C), junction temperatures can exceed safe limits, leading to thermal runaway or reduced lifespan. Always include a thermal relief pad on the PCB, maintain spacing from heat-sensitive components, and consider forced airflow or derating to 100–120mA in sealed applications. Monitor with an IR thermometer during prototype testing.

Quality Assurance (QC)

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Quality Assurance