Manufacturer Part Number
ADG611YRZ
Manufacturer
Analog Devices
Introduction
The ADG611YRZ is an SPST-NC interface analog switch from Analog Devices, offering efficient multiplexing and demultiplexing capabilities for various signal applications with minimal signal distortion.
Product Features and Performance
Single-pole single-throw normally closed switch
Multiplexer/Demultiplexer Circuit: 1:1
Number of Circuits: 4
Surface mount 16-SOIC package
On-State Resistance: Max 115 Ohm
Channel-to-Channel Matching: 2 Ohm
Voltage Supply Range: 2.7V ~ 5.5V (Single), ±2.7V ~ ±5.5V (Dual)
Swift Switch Time: 65ns (Ton), 40ns (Toff)
High Bandwidth: 680MHz
Low Charge Injection: -0.5pC
Channel Capacitance: 5pF (CS(off), CD(off))
Low Leakage Current: Max 100pA
Superior Crosstalk: -90dB @ 10MHz
Operating Temperature: -40°C ~ 125°C
Product Advantages
Reliable high-frequency performance with minimal distortion
Precision channel matching improves performance consistency
Broad operating temperature suitable for diverse applications
Low power consumption and low leakage for energy efficiency
High integration facilitates reduced system size
Key Technical Parameters
On-State Resistance: 115 Ohm Max
Voltage Supply, Single/Dual: 2.7V ~ 5.5V / ±2.7V ~ ±5.5V
3dB Bandwidth: 680MHz
Switch Time: Ton 65ns, Toff 40ns
Operating Temperature: -40°C ~ 125°C
Quality and Safety Features
Built to stringent specifications with robust materials for optimal performance and reliability under extended operating temperatures and conditions
Compatibility
Compatible with a wide range of supply voltages for versatile system integration
Application Areas
Signal routing in audio, video, and data applications
Telecommunications
Test equipment
Data acquisition systems
Product Lifecycle
Currently active with continued manufacturer support
Not nearing discontinuation; replacements or upgrades are readily available
Several Key Reasons to Choose This Product
Ultra-fast switching capabilities ensure real-time signal transmission
Robust build quality supports prolonged usage across diverse environments
High fidelity signal integrity maintained across the operational spectrum
Easy compatibility with both single and dual supply voltages
Extremely low dissipation factors support energy-efficient designs