MAX1061 Datasheet, PDF(13/20 Page) Maxim Integrated Products – 250ksps, +3V, 8-/4-Channel, 10-Bit ADCs with +2.5V Reference and Parallel Interface

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MAX1061 Datasheet, PDF (13/20 Pages) Maxim Integrated Products – 250ksps, +3V, 8-/4-Channel, 10-Bit ADCs with +2.5V Reference and Parallel Interface

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250ksps, +3V, 8-/4-Channel, 10-Bit ADCs

with +2.5V Reference and Parallel Interface

Selecting Clock Mode

The MAX1061/MAX1063 operate with either an internal

or an external clock. Control bits D6 and D7 select

either internal or external clock mode. The parts retain

the last-requested clock mode if a power-down mode is

selected in the current input word. For both internal and

external clock modes, internal or external acquisition

can be used. At power-up, the MAX1061/MAX1063

enter the default external clock mode.

Internal Clock Mode

Select internal clock mode to release the ÂµP from the

burden of running the SAR conversion clock. To select

this mode, bit D7 of the control byte must be set to 1

and D6 must be set to zero. The internal clock frequen-

cy is then selected, resulting in a conversion time of

3.6Âµs. When using the internal clock mode, tie the CLK

pin either high or low to prevent the pin from floating.

External Clock Mode

To select the external clock mode, bits D6 and D7 of

the control byte must be set to 1. Figure 6 shows the

clock and WR timing relationship for internal (Figure 6a)

and external (Figure 6b) acquisition modes with an

external clock. For proper operation, a 100kHz to

4.8MHz clock frequency with 30% to 70% duty cycle is

recommended. Operating the MAX1061/MAX1063 with

clock frequencies lower than 100kHz is not recom-

mended, because it causes a voltage droop across the

hold capacitor in the T/H stage that results in degraded

performance.

Digital Interface

Input (control byte) and output data are multiplexed on

a tri-state parallel interface. This parallel interface (I/O)

can easily be interfaced with standard ÂµPs. The signals

CS, WR, and RD control the write and read operations.

CS represents the chip-select signal, which enables a

ÂµP to address the MAX1061/MAX1063 as an I/O port.

When high, CS disables the CLK, WR, and RD inputs

and forces the interface into a high-impedance (high-Z)

state.

Input Format

The control byte is latched into the device on pins

D7âD0 during a write command. Table 2 shows the

control byte format.

Output Format

The output format for both the MAX1061/MAX1063 is

binary in unipolar mode and twoâs complement in bipo-

lar mode. When reading the output data, CS and RD

must be low. When HBEN = 0, the lower 8 bits are

read. With HBEN = 1, the upper 2 bits are available

and the output data bits D7âD2 are set either low in

unipolar mode or set to the value of the MSB in bipolar

mode (Table 5).

CLK

tCWH

CLK

ACQUISITION STARTS

tCP

ACQUISITION ENDS

CONVERSION STARTS

tCWS tCH

ACQMOD = 0

ACQUISITION STARTS

tCL

WR GOES HIGH WHEN CLK IS HIGH.

ACQUISITION ENDS

CONVERSION STARTS

ACQMOD = 0

WR GOES HIGH WHEN CLK IS LOW.

Figure 6a. External Clock and WR Timing (Internal Acquisition Mode)

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