AD7949 Analog Devices, AD7949 Datasheet - Page 21

AD7949

Manufacturer Part Number

AD7949

Description

14-Bit, 8-Channel, 250 kSPS PulSAR ADC

Manufacturer

Analog Devices

Datasheet

1.AD7949.pdf (32 pages)

Specifications of AD7949

Resolution (bits)

14bit

# Chan

Sample Rate

250kSPS

Interface

Ser,SPI

Analog Input Type

Diff-Uni,SE-Uni

Adc Architecture

SAR

Pkg Type

CSP

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD7949BCPZ

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Company:

H&T Electronics

Part Number:

AD7949BCPZ

Quantity:

4 500

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD7949BCPZRL7

Manufacturer:

VISHAY

Quantity:

12 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD7949SCPZ-EP-RL7

Manufacturer:

Quantity:

101

Current page: 21 of 32
Download datasheet (610Kb)

Data Sheet

DIGITAL INTERFACE

The AD7949 uses a simple 4-wire interface and is compatible

with SPI, MICROWIRE™, QSPI™, digital hosts, and DSPs, for

example, Blackfin® ADSP-BF53x, SHARC®, ADSP-219x, and

ADSP-218x.

The interface uses the CNV, DIN, SCK, and SDO signals and

allows CNV, which initiates the conversion, to be independent

of the readback timing. This is useful in low jitter sampling or

simultaneous sampling applications.

A 14-bit register, CFG[13:0], is used to configure the ADC for

the channel to be converted, the reference selection, and other

components, which are detailed in the Configuration Register,

CFG, section.

When CNV is low, reading/writing can occur during conversion,

acquisition, and spanning conversion (acquisition plus conver-

sion), as detailed in the following sections. The CFG word is

updated on the first 14 SCK rising edges, and conversion results

are output on the first 13 (or 14 if busy mode is selected) SCK

falling edges. If the CFG readback is enabled, an additional

14 SCK falling edges are required to output the CFG word

associated with the conversion results with the CFG MSB

following the LSB of the conversion result.

A discontinuous SCK is recommended because the part is

selected with CNV low, and SCK activity begins to write a new

configuration word and clock out data.

Note that in the following sections, the timing diagrams indicate

digital activity (SCK, CNV, DIN, SDO) during the conversion.

However, due to the possibility of performance degradation,

digital activity should occur only prior to the safe data reading/

writing time, t

tion circuitry that can correct for an incorrect bit during this

time. From t

sion results may be corrupted. The user should configure the

AD7949 and initiate the busy indicator (if desired) prior to

DIN transitions near the sampling instant. Therefore, it is

recommended to keep the digital pins quiet for approximately

20 ns before and 10 ns after the rising edge of CNV, using a

discontinuous SCK whenever possible to avoid any potential

performance degradation.

READING/WRITING DURING CONVERSION, FAST

HOSTS

When reading/writing during conversion (n), conversion

results are for the previous (n − 1) conversion, and writing the

CFG register is for the next (n + 1) acquisition and conversion.

After the CNV is brought high to initiate conversion, it must be

brought low again to allow reading/writing during conversion.

Reading/writing should only occur up to t

time is limited, the host must use a fast SCK.

DATA

. It is also possible to corrupt the sample by having SCK or

DATA

to t

, because the AD7949 provides error correc-

CONV

, there is no error correction and conver-

DATA

and, because this

Rev. C | Page 21 of 32

The SCK frequency required is calculated by

The time between t

activity should not occur, or sensitive bit decisions may be

corrupted.

READING/WRITING AFTER CONVERSION, ANY

SPEED HOSTS

When reading/writing after conversion, or during acquisition

(n), conversion results are for the previous (n − 1) conversion,

and writing is for the (n + 1) acquisition.

For the maximum throughput, the only time restriction is that

the reading/writing take place during the t

For slow throughputs, the time restriction is dictated by the

throughput required by the user, and the host is free to run at

any speed. Thus for slow hosts, data access must take place

during the acquisition phase.

READING/WRITING SPANNING CONVERSION, ANY

SPEED HOST

When reading/writing spanning conversion, the data access starts

at the current acquisition (n) and spans into the conversion (n).

Conversion results are for the previous (n − 1) conversion, and

writing the CFG register is for the next (n + 1) acquisition and

conversion.

Similar to reading/writing during conversion, reading/writing

should only occur up to t

the only time restriction is that reading/writing take place

during the t

For slow throughputs, the time restriction is dictated by the

user’s required throughput, and the host is free to run at any

speed. Similar to reading/writing during acquisition, for slow

hosts, the data access must take place during the acquisition

phase with additional time into the conversion.

Note that data access spanning conversion requires the CNV to

be driven high to initiate a new conversion, and data access is

not allowed when CNV is high. Thus, the host must perform

two bursts of data access when using this method.

CONFIGURATION REGISTER, CFG

The AD7949 uses a 14-bit configuration register (CFG[13:0]),

as detailed in Table 9, to configure the inputs, the channel to be

converted, the one-pole filter bandwidth, the reference, and the

channel sequencer. The CFG register is latched (MSB first) on

DIN with 14 SCK rising edges. The CFG update is edge depen-

dent, allowing for asynchronous or synchronous hosts.

SCK

≥

ACQ

Number

+ t

DATA

time.

SCK

and t

DATA

CONV

. For the maximum throughput,

Edges

is a safe time when digital

ACQ

(minimum) time.

AD7949

AD7949 Analog Devices, AD7949 Datasheet - Page 21

AD7949

Specifications of AD7949

Available stocks

Related parts for AD7949