AD7890ARZ-10 Analog Devices Inc, AD7890ARZ-10 Datasheet - Page 16

AD7890ARZ-10

Manufacturer Part Number

AD7890ARZ-10

Description

IC DAS 12BIT 8CH 24-SOIC

Manufacturer

Analog Devices Inc

Type

Data Acquisition System (DAS)r

Datasheets

1.AD7890ARZ-10.pdf (28 pages)

2.AD7890ARZ-10.pdf (20 pages)

Specifications of AD7890ARZ-10

Resolution (bits)

12 b

Data Interface

Serial

Sampling Rate (per Second)

117k

Voltage Supply Source

Single Supply

Voltage - Supply

±10V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-SOIC (7.5mm Width)

Input Channel Type

Single Ended

Supply Voltage Range - Analogue

4.75V To 5.25V

Supply Current

10mA

Digital Ic Case Style

MSOP

No. Of Pins

Sampling Rate

117kSPS

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD7890ARZ-10

Manufacturer:

FLATRON

Quantity:

301

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD7890ARZ-10

Manufacturer:

Analog Devices Inc

Quantity:

1 866

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD7890ARZ-10

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Current page: 16 of 20
Download datasheet (192Kb)

AD7890

AD7890–68HC11 Interface

An interface circuit between the AD7890 and the 68HC11

microcontroller is shown in Figure 13. For the interface shown,

the AD7890 is configured for its external clocking mode while

the 68HC11’s SPI port is used and the 68HC11 is configured in

its single-chip mode. The 68HC11 is configured in the master

mode with its CPOL bit set to a logic zero and its CPHA bit set

to a logic one.

As with the previous interface, there are no provisions for moni-

toring when conversion is complete on the AD7890. To monitor

the conversion time on the AD7890 a scheme, such as outlined

in the previous interface with CONVST, can be used. This can

be implemented in two ways. One is to connect the CONVST

line to another parallel port bit which is configured as an input.

This port bit can then be polled to determine when conversion

is complete. An alternative is to use an interrupt driven system

in which case the CONVST line should be connected to the

IRQ input of the 68HC11.

The serial clock rate from the 68HC11 is limited to significantly

less than the allowable input serial clock frequency with which

the AD7890 can operate. As a result, the time to read data from

the part will actually be longer than the conversion time of the

part. This means that the AD7890 cannot run at its maximum

throughput rate when used with the 68HC11.

AD7890–ADSP-2101 Interface

An interface circuit between the AD7890 and the ADSP-2101

DSP processor is shown in Figure 14. The AD7890 is configured

for its external clocking mode with the ADSP-2101 providing

the serial clock and frame synchronization signals. The RFS1

and TFS1 inputs and outputs are configured for active low

operation.

ADSP-2101

68HC11

SCLK1

MISO

MOSI

RFS1

TFS1

SCK

DR1

PC0

PC1

DT1

SMODE

RFS

TFS

SCLK

DATA OUT

DATA IN

SMODE

RFS

TFS

SCLK

DATA OUT

DATA IN

AD7890

In the scheme shown, the maximum serial clock frequency the

ADSP-2101 can provide is 6.25 MHz. This allows the AD7890

to be operated at a sample rate of 111 kHz. If it is desirable to

operate the AD7890 at its maximum throughput rate of 117 kHz,

an external serial clock of 10 MHz can be provided to drive the

serial clock input of both the AD7890 and the ADSP-2101.

To monitor the conversion time on the AD7890 a scheme, such

as outlined in previous interfaces with CONVST, can be used.

This can be implemented by connecting the CONVST line

directly to the IRQ2 input of the ADSP-2101. An alternative to

this, where the user does not have to worry about monitoring

the conversion status, is to operate the AD7890 in its Self-

Clocking Mode. In this scheme, the actual interface connections

would remain the same as in Figure 14 but now the AD7890

provides the serial clock and receive frame synchronization

signals. Using the AD7890 in its Self-Clocking Mode limits the

throughput rate of the system as the serial clock rate is limited

to 2.5 MHz.

AD7890–DSP56000 Interface

Figure 15 shows an interface circuit between the AD7890 and

the DSP56000 DSP processor. The AD7890 is configured for

its external clocking mode. The DSP56000 is configured for

normal mode, synchronous operation with continuous clock. It

is also set up for a 16-bit word with SCK and SC2 as outputs.

The FSL bit of the DSP56000 should be set to 0.

The RFS and TFS inputs of the AD7890 are connected together

so data is transmitted to and from the AD7890 at the same time.

With the DSP56000 in synchronous mode, it provides a com-

mon frame synchronization pulse for read and write operations

on its SC2 output. This is inverted before being applied to the

RFS and TFS inputs of the AD7890.

To monitor the conversion time on the AD7890 a scheme, such

as outlined in previous interface examples with CONVST, can

be used. This can be implemented by connecting the CONVST

line directly to the IRQA input of the DSP56000.

AD7890–TMS320C25/30 Interface

Figure 16 shows an interface circuit between the AD7890 and

the TMS320C25/30 DSP processor. The AD7890 is configured

for its Self-Clocking Mode where it provides the serial clock and

frame synchronization signals. However, the TMS320C25/30

requires a continuous serial clock. In the scheme outlined here,

the AD7890’s master clock signal, CLK IN, is used to provide

the serial clock for the processor. The AD7890’s output SCLK,

to which the serial data is referenced, is a delayed version of the

CLK IN signal. The typical delay between the CLK IN and SCLK

is 20 ns and will be no more than 50 ns over supplies and tem-

perature. Therefore, there will still be sufficient setup time for

DSP56000

SCK

SRD

SC2

STD

SMODE

RFS

TFS

SCLK

DATA OUT

DATA IN

AD7890

AD7890ARZ-10 Analog Devices Inc, AD7890ARZ-10 Datasheet - Page 16

AD7890ARZ-10

Specifications of AD7890ARZ-10

Available stocks

Related parts for AD7890ARZ-10