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.
| 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 | vpm2sm datasheet
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. When designing with the VPM2SM, prioritize a low-capacitance
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: This article aggregates all critical data typically found
| 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 |