LTC2440 Linear Technology, LTC2440 Datasheet - Page 13

LTC2440

Manufacturer Part Number

LTC2440

Description

24-Bit High Speed Differential delta-sigma ADC

Manufacturer

Linear Technology

Datasheet

1.LTC2440.pdf (28 pages)

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APPLICATIO S I FOR ATIO

Chip Select Input (CS)

The active LOW chip select, CS (Pin 11), is used to test the

conversion status and to enable the data output transfer as

described in the previous sections.

In addition, the CS signal can be used to trigger a new

conversion cycle before the entire serial data transfer has

been completed. The LTC2440 will abort any serial data

transfer in progress and start a new conversion cycle

anytime a LOW-to-HIGH transition is detected at the CS

pin after the converter has entered the data output state

(i.e., after the fifth falling edge of SCK occurs with

CS = LOW).

Serial Data Input (SDI)—Logic Level Speed Selection

The serial data input (SDI, Pin 7) is used to select the

speed/resolution of the LTC2440. A simple 2-speed con-

trol is selectable by either driving SDI HIGH or LOW. If SDI

is grounded (pin compatible with LTC2410) the device

outputs data at 880Hz with 21 bits effective resolution. By

tying SDI HIGH, the converter enters the ultralow noise

mode (200nV

6.9Hz output rate. SDI may be driven logic HIGH or LOW

anytime during the conversion or sleep state in order to

change the speed/resolution. The conversion immediately

following the data output cycle will be valid and performed

at the newly selected output rate/resolution.

Changing SDI logic state during the data output cycle

should be avoided as speed resolution other than 6.9Hz or

880Hz may be selected. For example, if SDI is changed

from logic 0 to logic 1 after the second rising edge of SCK,

the conversion rate will change from 880Hz to 55Hz (the

following values are listed in Table 3: OSR4 = 0, OSR3 = 0,

OSR2 = 1, OSR1 = 1 and OSR0 = 1). If SDI remains HIGH,

the conversion rate will switch to the desired 6.9Hz speed

immediately following the conversion at 55Hz. The 55Hz

rate conversion cycle will be a valid result as well as the

first 6.9Hz result. On the other hand, if SDI is changed to

a 1 anytime before the first rising edge of SCK, the

following conversion rate will become 6.9Hz. If SDI is

changed to a 1 after the 5th rising edge of SCK, the next

conversion will remain 880Hz while all subsequent con-

versions will be at 6.9Hz.

RMS

) with simultaneous 50/60Hz rejection at

Serial Data Input (SDI)—Serial Input Speed Selection

SDI may also be programmed by a serial input data stream

under control of SCK during the data output cycle, see

Figure 4. One of ten speed/resolution ranges (from 6.9Hz/

200nV

Table 3. The conversion following a new selection is valid

and performed at the newly selected speed/resolution.

BUSY

The BUSY output (Pin 15) is used to monitor the state of

conversion, data output and sleep cycle. While the part is

converting, the BUSY pin is HIGH. Once the conversion is

complete, BUSY goes LOW indicating the conversion is

complete and data out is ready. The part now enters the

LOW power sleep state. BUSY remains LOW while data is

shifted out of the device. It goes HIGH at the conclusion of

the data output cycle indicating a new conversion has

begun. This rising edge may be used to flag the completion

of the data read cycle.

SERIAL INTERFACE TIMING MODES

The LTC2440’s 2-wire, 3-wire or 4-wire interface is SPI

and MICROWIRE compatible. This interface offers several

flexible modes of operation. These include internal/exter-

nal serial clock, 2-wire or 3-wire I/O, single cycle conver-

sion and autostart. The following sections describe each

of these serial interface timing modes in detail. In all these

cases, the converter can use the internal oscillator (F

LOW) or an external oscillator connected to the F

Table 4 for a summary.

External Serial Clock, Single Cycle Operation

(SPI/MICROWIRE Compatible)

This timing mode uses an external serial clock to shift out

the conversion result and a CS signal to monitor and

control the state of the conversion cycle, see Figure 5.

The serial clock mode is selected by the EXT pin. To select

the external serial clock mode, EXT must be tied low.

The serial data output pin (SDO) is Hi-Z as long as CS is

HIGH. At any time during the conversion cycle, CS may be

pulled LOW in order to monitor the state of the converter.

While CS is pulled LOW, EOC is output to the SDO pin.

RMS

to 3.5kHz/21µV

RMS

) may be selected, see

LTC2440

sn2440, 2440fas

pin. See

LTC2440 Linear Technology, LTC2440 Datasheet - Page 13

LTC2440

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