AD9253-125EBZ AD [Analog Devices], AD9253-125EBZ Datasheet - Page 33

AD9253-125EBZ

Manufacturer Part Number

AD9253-125EBZ

Description

Quad, 14-Bit, 80 MSPS/105 MSPS/125 MSPS

Manufacturer

AD [Analog Devices]

Datasheet

1.AD9253-125EBZ.pdf (40 pages)

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Data Sheet

MEMORY MAP

READING THE MEMORY MAP REGISTER TABLE

Each row in the memory map register table has eight bit locations.

The memory map is roughly divided into three sections: the chip

configuration registers (Address 0x00 to Address 0x02); the device

index and transfer registers (Address 0x05 and Address 0xFF);

and the global ADC functions registers, including setup, control,

and test (Address 0x08 to Address 0x109).

The memory map register table (see Table 17) lists the default

hexadecimal value for each hexadecimal address shown. The

column with the heading Bit 7 (MSB) is the start of the default

hexadecimal value given. For example, Address 0x05, the device

index register, has a hexadecimal default value of 0x3F. This

means that in Address 0x05, Bits[7:6] = 0, and the remaining

Bits[5:0] = 1. This setting is the default channel index setting.

The default value results in both ADC channels receiving the

next write command. For more information on this function

and others, see the

High Speed ADCs via SPI. This application note details the

functions controlled by Register 0x00 to Register 0xFF. The

remaining registers are documented in the Memory Map

Open Locations

All address and bit locations that are not included in Table 17

are not currently supported for this device. Unused bits of a

valid address location should be written with 0s. Writing to these

locations is required only when part of an address location is

open (for example, Address 0x05). If the entire address location

is open or not listed in Table 17 (for example, Address 0x13), this

address location should not be written.

AN-877

, Interfacing to

Rev. 0 | Page 33 of 40

Default Values

After the

default values. The default values for the registers are given in

the memory map register table, Table 17.

Logic Levels

An explanation of logic level terminology follows:

•

Channel-Specific Registers

Some channel setup functions, such as the signal monitor

thresholds, can be programmed differently for each channel. In

these cases, channel address locations are internally duplicated

for each channel. These registers and bits are designated in

Table 17 as local. These local registers and bits can be accessed

by setting the appropriate data channel bits (A, B, C, or D) and

the clock channel DCO bit (Bit 5) and FCO bit (Bit 4) in

the registers of all channels and the DCO/FCO clock channels.

In a read cycle, only one of the channels (A, B, C, or D) should

be set to read one of the four registers. If all the bits are set

during a SPI read cycle, the part returns the value for Channel

A. Registers and bits designated as global in Table 17 affect the

entire part or the channel features for which independent

settings are not allowed between channels. The settings in

“Bit is set” is synonymous with “bit is set to Logic 1” or

“writing Logic 1 for the bit. ”

“Clear a bit” is synonymous with “bit is set to Logic 0” or

“writing Logic 0 for the bit. ”

AD9253

is reset, critical registers are loaded with

AD9253

AD9253-125EBZ AD [Analog Devices], AD9253-125EBZ Datasheet - Page 33

AD9253-125EBZ

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