Manufacturer Part Number
ADG407BP
Manufacturer
Analog Devices
Introduction
The ADG407BP is a high-performance 8:1 multiplexer/demultiplexer component designed for use in analog signal switching.
Product Features and Performance
8:1 multiplexer/demultiplexer configuration
2 individual circuits
Single supply voltage of 12V or dual supply voltage of ±15V
Max on-state resistance of 80Ohm
Channel-to-channel matching of 4Ohm
Switching time of 160ns for Ton and 150ns for Toff
Charge injection of 8pC
Off channel capacitance of 5pF, 25pF
Maximum leakage current of 500pA
Crosstalk specification of -85dB at 100kHz
Operating temperature range of -40°C to 85°C
Surface mount 28-LCC (J-Lead) package
Product Advantages
The integrated circuit provides precise channel-to-channel matching which enhances performance.
Low charge injection for minimal signal distortion.
Low crosstalk ensures high signal integrity.
Key Technical Parameters
8:1 multiplexer/demultiplexer functionality
On-state resistance (Max): 80Ohm
Switching times (Ton/Toff): 160ns/150ns
Voltage supply range: 12V, ±15V
Leakage current (IS(off)): 500pA max
Operating temperature: -40°C to 85°C
Quality and Safety Features
Reliable operating temperature range
Constructed to maintain signal fidelity with minimal leakage and charge injection
Compatibility
Designed for surface mount technology and compatible with standard PCB manufacturing processes
Application Areas
Data acquisition systems
Test equipment
Communication systems
Audio and video switching
Product Lifecycle
Obsolete product
Potential replacement or upgrade options may be available (specific information can be sourced from Analog Devices)
Key Reasons to Choose This Product
High precision with tight channel matching reducing signal variation
Low on-state resistance assists in reducing power loss
Fast switching capability facilitates high-speed operations
Minimal charge injection preserves signal quality
Broad operating temperature range suitable for industrial applications
Excellent crosstalk performance ensuring minimal interference between channels