| Model | Package | Active Area | Rise Time | Typical Application | | :--- | :--- | :--- | :--- | :--- | | | Side-looking SMD | 7.5 mm² | 100 ns | High-speed IR data, encoders | | TEMD5110X01 | Top-view SMD | 7.5 mm² | 100 ns | General purpose | | BPW34S | Through-hole | 7.5 mm² | 100 ns | Legacy designs | | VEMD5110 | Top-view SMD | 7.5 mm² | 100 ns | Ambient light sensing |
| Symbol | Parameter | Test Condition | Min | Typ | Max | Unit | | :--- | :--- | :--- | :--- | :--- | :--- | :--- | | | Photocurrent | E e = 1 mW/cm², λ = 950 nm, V R =5V | 16 | 24 | 32 | µA | | λ 0.5 | Spectral Range | Sensitivity > 50% of peak | 350 | - | 1100 | nm | | V R | Reverse Voltage | I R = 100 nA | 60 | - | - | V | | I D | Dark Current | V R = 10 V, E=0 | - | 2 | 5 | nA | | C D | Junction Capacitance | V R = 5 V, f = 1 MHz | - | 32 | - | pF | | t r / t f | Rise/Fall Times | V R = 5 V, R L =50Ω, λ=950nm | - | 100 | - | ns |
When designing with the VPM2SM, prioritize a low-capacitance layout, use photoconductive mode for speed, and always respect the absolute maximum reverse voltage of 60V.
For engineers, sourcing the correct VPM2SM datasheet is the first step toward successful integration. Unlike standard photodiodes, the VPM2SM combines a high-speed PIN photodiode with optimized spectral sensitivity in a compact, surface-mount package.
Meta Description: Need the VPM2SM datasheet? This guide provides a detailed breakdown of the Vishay VPM2SM photodiode module, including absolute maximum ratings, electrical characteristics, typical application circuits, and mechanical dimensions. Introduction to the VPM2SM The VPM2SM is a high-speed, surface-mount silicon PIN photodiode module manufactured by Vishay Semiconductors . It is specifically designed for visible and near-infrared (NIR) light detection, making it a critical component in optical communication systems, industrial sensors, and medical diagnostic equipment.
This article aggregates all critical data typically found in the official Vishay datasheet, offering a technical reference guide. Before diving into pin configurations, let’s review the hallmark features that define this component: