Datasheet
12
LTC2420
APPLICATIO S I FOR ATIO
WUU
U
fault current, a resistor of up to 25k may be added in series
with the V
IN
pin without affecting the performance of the
device. In the physical layout, it is important to maintain
the parasitic capacitance of the connection between this
series resistance and the V
IN
pin as low as possible;
therefore, the resistor should be located as close as
practical to the V
IN
pin. The effect of the series resistance
on the converter accuracy can be evaluated from the
curves presented in the Analog Input/Reference Current
section. In addition, a series resistor will introduce a
temperature dependent offset error due to the input leak-
age current. A 1nA input leakage current will develop a
1ppm offset error on a 5k resistor if V
REF
= 5V. This error
has a very strong temperature dependency.
Output Data Format
The LTC2420 serial output data stream is 24 bits long. The
first 4 bits represent status information indicating the
sign, input range and conversion state. The next 20 bits are
the conversion result, MSB first.
Bit 23 (first output bit) is the end of conversion (EOC)
indicator. This bit is available at the SDO pin during the
conversion and sleep states whenever the CS pin is LOW.
This bit is HIGH during the conversion and goes LOW
when the conversion is complete.
Bit 22 (second output bit) is a dummy bit (DMY) and is
always LOW.
Bit 21 (third output bit) is the conversion result sign indi-
cator (SIG). If V
IN
is >0, this bit is HIGH. If V
IN
is <0, this
bit is LOW. The sign bit changes state during the zero code.
Bit 20 (fourth output bit) is the extended input range (EXR)
indicator. If the input is within the normal input range
0␣ ≤␣V
IN
≤ V
REF
, this bit is LOW. If the input is outside the
normal input range, V
IN
> V
REF
or V
IN
< 0, this bit is HIGH.
The function of these bits is summarized in Table 1.
Table 1. LTC2420 Status Bits
Bit 23 Bit 22 Bit 21 Bit 20
Input Range EOC DMY SIG EXR
V
IN
> V
REF
0 011
0 < V
IN
≤ V
REF
0 010
V
IN
= 0
+
/0
–
0 0 1/0 0
V
IN
< 0 0 001
Bit 19 (fifth output bit) is the most significant bit (MSB).
Bits 19-0 are the 20-bit conversion result MSB first.
Bit 0 is the least significant bit (LSB).
Data is shifted out of the SDO pin under control of the serial
clock (SCK), see Figure 4. Whenever CS is HIGH, SDO
remains high impedance and any SCK clock pulses are
ignored by the internal data out shift register.
In order to shift the conversion result out of the device, CS
must first be driven LOW. EOC is seen at the SDO pin of the
device once CS is pulled LOW. EOC changes real time from
HIGH to LOW at the completion of a conversion. This
signal may be used as an interrupt for an external micro-
controller. Bit 23 (EOC) can be captured on the first rising
edge of SCK. Bit 22 is shifted out of the device on the first
falling edge of SCK. The final data bit (Bit 0) is shifted out
on the falling edge of the 23rd SCK and may be latched on
Figure 4. Output Data Timing
MSBEXTSIG“0”
12345 192024
BIT 0BIT 19 BIT 4
LSB
20
BIT 20BIT 21BIT 22
SDO
SCK
CS
EOC
BIT 23
SLEEP DATA OUTPUT CONVERSION
2420 F04
Hi-Z