Product Details
●The AD8113 is a fully buffered crosspoint switch matrix that operates on ±12V for Audio applications and ±5V for Video applications. It offers a -3dB signal bandwidth greater than 60MHz and channel switch times of less than 60ns with 0.1% settling for use in both analog and digital audio. The AD8113 operated at 20kHz has crosstalk performance of -83dB and isolation of 90dB. In addition, ground/power pins surround all inputs and outputs to provide extra shielding for operation in the most demanding audio routing applications. The differential gain and differential phase of better than 0.1% and 0.1°, respectively, along with 0.1dB flatness out to 10MHz make the AD8113 suitable for many video applications.
●The AD8113 includes 16 independent output buffers that can be placed into a disabled state for paralleling crosspoint outputs so that off channel loading is minimized. The AD8113 has a gain of +2. It operates on voltage supplies of ±5V or ±12V while consuming only 34mA or 31mA of current, respectively.
●The channel switching is performed via a serial digital control (which can accommodate daisy-chaining of several devices) or via a parallel control, allowing updating of an individual output without reprogramming the entire array.
●The AD8113 is packaged in a 100-lead LQFP and is available over the commercial temperature range of 0°C to 70°C.
●### Features and Benefits
● 16 x 16 High Speed Nonblocking Switch Array
● Serial or Parallel Programming of Switch Array
● Serial Data Out Allows Daisy Chaining Control of Multiple 16 x 16s to Create Larger Switch Arrays
● Output Disable Allows Connection of Multiple Devices without Loading the Output Bus
● Complete Solution
●Buffered Inputs
●16 Output Amplifiers
●Operates on ±5 V or ±12 V Supplies
●Low Supply Current of 54 mA
● Excellent Audio Performance
●VS = ±12 V
●±10 V Output Swing
●0.002% THD @ 20 kHz Max. 20 V p-p
●(RL = 600 Ω)
● Excellent Video Performance VS = ±5 V
● 10 MHz 0.1 dB Gain Flatness
●0.1% Differential Gain Error (RL = 1 kΩ)
●0.1° Differential Phase Error
●(RL = 1 kΩ)
● See data sheet for additional Features
