WM2625 Ver la hoja de datos (PDF) - Wolfson Microelectronics plc

Número de pieza

componentes Descripción

Fabricante

WM2625

Low Power Dual 8-bit Serial Input DAC

Wolfson Microelectronics plc 

Production Data

WM2625

Since a data word contains 16 bits, the sample rate for one channel is limited to

( ) fs max

= 16 ×

1

tWH min

+ tWL min

= 1.25MHz

For full two-channel operation, where two data words need to be transmitted per sample, this figure

is halved to 625kHz. However, the DAC settling time to 8-bit accuracy limits the response time of

the analogue output for large input step transitions.

SOFTWARE CONFIGURATION OPTIONS

Table 2 shows the composition of a 16-bit data word. D11-D4 contains the 8-bit data word, and

D14-D13 hold the programmable options. Bits D15 and D12 are used for addressing the different

latches. D3 to D0 are unused and should be set to ZERO.

D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0

R1 SPD PWR R0

New DAC value (8 bits)

0 000

Table 2 Register Map

PROGRAMMABLE CONVERTER SPEED

SPD (Bit 14) allows for software control of the converter speed. A ONE selects the fast mode,

where typical settling time to within ±0.5LSB of the final value is 1µs. a ZERO puts the device into

the slow mode, where typical settling time is 3µs.

PROGRAMMABLE POWER DOWN

The power down function is controlled by PWR (Bit 13). A ZERO configures the device as active,

or fully powered up, a ONE sets the device into power down mode. When the power down function

is released the device reverts to the DAC code set prior to power down.

ADDRESSING THE BUFFER AND DAC LATCHES

Data received on the serial interface is routed according to the values of bits R1 and R0, as shown

in Table 3

R1

R0

(BIT D15)

(BIT D12)

0

0

0

1

1

0

1

1

Table 3 Latch Addressing

REGISTER

Write data to DAC B and buffer

Write data to buffer

Write data to DAC A and update DAC B with buffer content

Reserved

To update both DACs simultaneously, the data intended for DAC B should first be stored in the

buffer. Subsequently, writing data to DAC A will automatically update the DAC B latch from the

buffer, so that the analogue output of both DACs will change at the same time.

When updating the two channels independently, all data written to the DAC B latch (R1 and R0 set

to ZERO) is also copied to the buffer. Thus the automatic update of DAC B when writing to DAC A

latch (R1=1, R0=0) does not change the DAC B data. Data should not be written only to the buffer

when operating in this mode.

EXAMPLES OF OPERATION

Simultaneous operation, slow mode:

1. Write data for DAC B to buffer

D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0

0001

New DAC B value

0 000

2. Write new DAC A value and update DAC B from buffer simultaneously

D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0

1000

New DAC A value

0 000

WOLFSON MICROELECTRONICS LTD

PD Rev 1.0 April 2001

7

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