max555ccbtd Maxim Integrated Products, Inc., max555ccbtd Datasheet - Page 7

max555ccbtd

Manufacturer Part Number

max555ccbtd

Description

Max555 300msps, 12-bit Dac With Complementary Voltage Outputs

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX555CCBTD.pdf (12 pages)

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The DAC’s control amplifier has a typical open-loop volt-

age gain of 85dB, and its gain-magnitude bandwidth is

flat up to 10MHz. When the control amplifier is not being

used for high-speed multiplying applications, it is recom-

mended that a 0.4µF capacitor be connected from LBIAS

to AV

current-source noise.

The MAX555 features a differential ECL clock input with

selective transparent operation (BYPASS = 1). It is possi-

ble to drive the MAX555 clock single-ended if desired by

tying the CLK input to an external voltage of -1.3V (ECL

noise immunity and improved dynamic performance.

In clocked mode (BYPASS = 0), when the clock line is

low, the slave register is locked out and information on

the digital inputs is permitted to enter the master regis-

ter. The clock transition from low to high locks the mas-

ter register in its present state and ignores further

changes on the digital inputs. This transition simultane-

Table 1. Output Coding

Figure 2. Timing Diagram

DIGITAL CODE

000000000000

000000000001

011111111111

100000000000

111111111111

). However, using a differential clock provides greater

(D11–D0)

to increase control-amplifier stability and reduce

VOUT

D11

PD2

_______________________________________________________________________________________

TRANSPARENT MODE

BYPASS = 1

-0.999756

-0.999512

-0.500000

-0.499756

VOUT

(V)

PD1

Timing Information

Complementary Voltage Outputs

-0.000244

-0.499756

-0.500000

-0.999756

VOUT

(V)

F.S.

300Msps, 12-Bit DAC with

ously transfers the contents of the master register to the

slave register, causing the DAC output to change.

Figure 2’s timing diagram illustrates the importance of

operating the MAX555 in clocked mode. In transparent

mode (BYPASS = 1), both the master and slave registers

are transparent, and changes in input data ripple directly

to the output. Because the four MSBs are decoded into

15 identical currents, there is a decode delay for these

bits that is longer than for the eight LSBs. For the full-

scale transition case shown, an intermediate output of

1/16 full-scale occurs until the four MSBs are properly

decoded. This decode delay seriously degrades the

device’s spurious performance. In addition, skew in the

timing of the input data also directly appears at the DAC

output, further degrading high-speed performance.

MAX555 operation in the clocked mode (BYPASS = 0)

with a differential clock precludes both of these poten-

tial problems and is required for high-speed operation.

Since input data can only enter the master register

when the clock is low (while the slave register is locked

out), data-bus timing skew and the internal MSB

decode delay will not appear at the DAC output. The

DAC currents are switched only when the clock transi-

tions from low to high, after the internal data stabilizes.

The MAX555 has separate pins for analog and digital

supplies. AV

through the substrate of the IC. These potentials should

be derived from the same supply to minimize voltage

mismatch, which can cause substrate current flow and

VOUT

CLK

D11

CLOCKED MODE

BYPASS = 0

and DV

Layout and Power Supplies

PD3

are connected to each other

HOLD

max555ccbtd Maxim Integrated Products, Inc., max555ccbtd Datasheet - Page 7

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