EVAL-AD5660DKZ Analog Devices Inc, EVAL-AD5660DKZ Datasheet - Page 20

EVAL-AD5660DKZ

Manufacturer Part Number

EVAL-AD5660DKZ

Description

BOARD DEMO FOR AD5660

Manufacturer

Analog Devices Inc

Series

nanoDAC™r

Datasheets

1.AD5620ARJZ-1500RL7.pdf (28 pages)

2.EVAL-AD5660DKZ.pdf (24 pages)

Specifications of EVAL-AD5660DKZ

Number Of Dac's

Number Of Bits

Outputs And Type

1, Single Ended

Sampling Rate (per Second)

125k

Data Interface

Serial

Settling Time

8µs

Dac Type

Voltage

Voltage Supply Source

Single

Operating Temperature

-40°C ~ 105°C

Utilized Ic / Part

AD5660

Silicon Manufacturer

Analog Devices

Application Sub Type

DAC

Kit Application Type

Data Converter

Silicon Core Number

AD5660

Kit Contents

Board

Silicon Family Name

NanoDAC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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AD5620/AD5640/AD5660

AD5660-to-68HC11/68L11 Interface

Figure 46 shows a serial interface between the AD5660 and the

68HC11/68L11 microcontroller. SCK of 68HC11/68L11 drives

the SCLK of AD5660, and the MOSI output drives the serial

data line of the DAC. The SYNC signal is derived from a port

line (PC7). The setup conditions for correct operation of this

interface are as follows: The 68HC11/68L11 should be con-

figured so that its CPOL bit is 0, and its CPHA bit is 1. When

data is being transmitted to the DAC, the SYNC line is taken

low (PC7). When the 68HC11/68L11 is configured in this way,

data appearing on the MOSI output is valid on the falling edge

of SCK. Serial data from the 68HC11/68L11 is transmitted in

8-bit bytes with only eight falling clock edges occurring in the

transmit cycle. Data is transmitted MSB first. To load data to the

AD5660, PC7 is left low after the first eight bits are transferred, a

second serial write operation is performed to the DAC, and PC7

is taken high at the end of this procedure.

AD5660-to-80C51/80L51 Interface

Figure 47 shows a serial interface between the AD5660 and the

80C51/80L51 microcontroller. The setup for the interface is as

follows: TxD of the 80C51/80L51 drives SCLK of the AD5660,

and RxD drives the serial data line of the part. The SYNC signal

is again derived from a bit-programmable pin on the port. In

this case, Port Line P3.3 is used. When data is to be transmitted

to the AD5660, P3.3 is taken low. The 80C51/80L51 transmit

ADDITIONAL PINS OMITTED FOR CLARITY

68HC11/68L11

Figure 46. AD5660-to-68HC11/68L11 Interface

MOSI

SCK

PC7

AD5660

SYNC

SCLK

DIN

Rev. F | Page 20 of 28

data only in 8-bit bytes; therefore, only eight falling clock edges

occur in the transmit cycle. To load data to the DAC, P3.3 is left

low after the first eight bits are transmitted, and a second write

cycle is initiated to transmit the second byte of data. P3.3 is taken

high following the completion of this cycle. The 80C51/80L51

output the serial data LSB first; however, the AD5660 requires

its data with the MSB as the first bit received. The 80C51/80L51

transmit routine should take this into account.

AD5660-to-MICROWIRE Interface

Figure 48 shows an interface between the AD5660 and any

MICROWIRE-compatible device. Serial data is shifted out on

the falling edge of the serial clock and is clocked into the

AD5660 on the rising edge of the SK.

ADDITIONAL PINS OMITTED FOR CLARITY

80C51/80L51

MICROWIRE

Figure 47. AD5660-to-80C51/80L51 Interface

Figure 48. AD5660-to-MICROWIRE Interface

P3.3

RxD

TxD

AD5660

SYNC

SCLK

DIN

AD5660

SYNC

SCLK

DIN

EVAL-AD5660DKZ Analog Devices Inc, EVAL-AD5660DKZ Datasheet - Page 20

EVAL-AD5660DKZ

Specifications of EVAL-AD5660DKZ

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