Bi‑Polarized Axial Aluminum Electrolytic Capacitor
105°C, 1000 hours, Low Dissipation Factor, MAX 10% at 120Hz – Audio System - TS13AF
SNAP IN ALUMINUM ELECTROLYTIC CAPACITOR GENERAL PURPOSE
Overview
- Low Dissipation Factor
- Specially produced for Cross‑Over Networks with high fidelity audio system
- High‑quality crossover non‑polar aluminum electrolytic capacitors
Description
01 — TECHNICAL DATA
Specifications
| Bi‑Polarized Axial Aluminum Electrolytic Capacitor Specifications – TS13AF | |
|---|---|
| Operating temperature range | -40℃ ~ +105℃ |
| Capacitance tolerance | ±10% (K) at 120Hz |
| Voltage range | 50V, 100V |
| Leakage current | MAX. 0.03CV + 3 µA after 5 minutes application of rated working voltage |
| Load life | After 1,000 hours at 105±2℃ with rated voltage: ΔC/C within ±25%, tan δ ≤200% of initial, leakage ≤ specified |
| Max dissipation factor | MAX 10% at 120Hz |
| Dimensions (Diameter × Length) | 47 µF: 10×19 mm (50V), 13×27 mm (100V) 350 µF: 16×38 mm (50V), 18×44 mm (100V) 68 µF: 13×27 mm (50V), 16×42 mm (100V) 400 µF: 16×42 mm (50V), 22×44 mm (100V) 82 µF: 13×27 mm (50V), 16×42 mm (100V) 500 µF: 16×42 mm (50V), 22×44 mm (100V) 100 µF: 13×27 mm (50V), 16×34 mm (100V) 600 µF: 16×42 mm (50V), 25×52 mm (100V) 150 µF: 13×32 mm (50V), 16×34 mm (100V) 700 µF: 18×44 mm (50V), 25×52 mm (100V) 220 µF: 13×32 mm (50V), 16×42 mm (100V) 800 µF: 18×44 mm (50V), 25×52 mm (100V) 250 µF: 13×32 mm (50V), 16×42 mm (100V) 900 µF: 18×44 mm (50V), 25×52 mm (100V) 300 µF: 16×34 mm (50V), 18×44 mm (100V) 1000 µF: 22×44 mm (50V), 25×52 mm (100V) |
02 — INTRODUCTION
Features
TS13AF Axial Aluminum Electrolytic Capacitor Features
Low Dissipation Factor.
Specially produced for Cross‑Over Networks with high fidelity audio system.
High‑quality crossover non‑polar aluminum electrolytic capacitors.
Product mainly used in audio converters and dividers, audio amps, automotive electronics products, and speakers.
03 — SOLUTIONS
Applications
Bi‑polarized axial aluminum electrolytic capacitors like the TS13AF provide low dissipation and stable performance over wide temperatures, making them suitable for audio crossover networks, high‑fidelity audio systems, speakers, audio amplifiers, and automotive audio electronics.