AD9216 Datasheet, PDF(16/20 Page) Analog Devices – 10-Bit, 65/80/105 MSPS Dual A/D Converter

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AD9216 Datasheet, PDF (16/20 Pages) Analog Devices – 10-Bit, 65/80/105 MSPS Dual A/D Converter

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AD9216

The data format can be selected for either offset binary or twos

complement. This is discussed later in the Data Format section.

TIMING

The AD9216 provides latched data outputs with a pipeline

delay of six clock cycles. Data outputs are available one

propagation delay (tPD) after the rising edge of the clock signal.

Refer to Figure 2 for a detailed timing diagram.

The internal duty cycle stabilizer can be enabled on the

Preliminary Technical Data

AD9216 using the DCS pin. This provides a stable 50% duty

cycle to internal circuits.

The length of the output data lines and loads placed on them

should be minimized to reduce transients within the AD9216.

These transients can detract from the converterâs dynamic

performance. The lowest typical conversion rate of the AD9216

is 1 MSPS. At clock rates below 1 MSPS, dynamic

performance may degrade.

Figure 6. NEEDS UPDATING Example of Multiplexed Data Format Using the Channel A Output and the Same Clock Tied to CLK_A, CLK_B, and

MUX_SELECT

DATA FORMAT

The AD9216 data output format can be configured for either

twos complement or offset binary. This is controlled by the

Data Format Select pin (DFS). Connecting DFS to AGND will

produce offset binary output data. Conversely, connecting DFS

to AVDD will format the output data as twos complement.

must remain active in this mode and that each channel's power-

down pin must remain low.

The output data from the dual A/D converters can be

multiplexed onto a single 10-Bits output bus. The multiplexing

is accomplished by toggling the MUX_SELECT bit, which

directs channel data to the same or opposite channel data port.

When MUX_SELECT is logic high, the Channel A data is

directed to Channel A output bus, and Channel B data is

directed to the Channel B output bus. When MUX_SELECT is

logic low, the channel data is reversed, i.e., Channel A data is

directed to the Channel B output bus and Channel B data is

directed to the Channel A output bus. By toggling the

MUX_SELECT bit, multiplexed data is available on either of

the output data ports.

If the ADCs are run with synchronized timing, this same clock

can be applied to the MUX_SELECT bit. After the

MUX_SELECT rising edge, either data port will ha ve the data

for its respective channel; after the falling edge, the alternate

channelâs data will be placed on the bus. Typically, the other

unused bus would be disabled by setting the appropriate OEB

high to reduce power consumption and noise. Figure 6 shows

an example of multiplex mode. When multiplexing data, the

data rate is two times the sample rate. Note that both channels

Rev. PrD

Page 16 of 20

6/15/2004

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