MCP3301-BI/SN Microchip Technology, MCP3301-BI/SN Datasheet - Page 17
MCP3301-BI/SN
Manufacturer Part Number
MCP3301-BI/SN
Description
IC ADC 13BIT 2.7V SPI 8-SOIC
Manufacturer
Microchip Technology
Datasheet
1.MCP3301-CIMS.pdf
(32 pages)
Specifications of MCP3301-BI/SN
Package / Case
8-SOIC (0.154", 3.90mm Width)
Number Of Bits
13
Sampling Rate (per Second)
100k
Data Interface
Serial, SPI™
Number Of Converters
1
Voltage Supply Source
Single Supply
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Architecture
SAR
Conversion Rate
100 KSPs
Resolution
12 bit
Input Type
Voltage
Snr
80.02 dB
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Input Signal Type
Pseudo-Differential, Differential
Minimum Operating Temperature
- 40 C
Resolution (bits)
13bit
Sampling Rate
100kSPS
Input Channel Type
Differential
Supply Voltage Range - Analogue
2.7V To 5.5V
Supply Current
300µA
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
TMPSNS-RTD1 - BOARD EVAL PT100 RTD TEMP SENSOR
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MCP3301-BI/SN
Manufacturer:
AD
Quantity:
15 600
Part Number:
MCP3301-BI/SN
Manufacturer:
MICROCHIP/微芯
Quantity:
20 000
FIGURE 6-3:
6.2.1
When the MCP3301 initiates, charge is stored on the
sample capacitor. When the sample period is complete,
the device converts one bit for each clock that is
received. It is important for the user to note that a slow
clock rate will allow charge to bleed off the sample
capacitor while the conversion is taking place. For the
MCP330X devices, the recommended minimum clock
speed during the conversion cycle (t
Failure to meet this criteria may introduce linearity
errors into the conversion outside the rated specifica-
tions. It should be noted that, during the entire conver-
sion cycle, the A/D converter does not have
requirements for clock speed or duty cycle as long as
all timing specifications are met.
6.3
For pseudo-differential bipolar operation, the biasing
circuit shown in Figure 6-4 shows a single-ended input
AC coupled to the converter. This configuration will give
a digital output range of -4096 to +4095. With the 2.5V
reference, the LSB size is equal to 610 µV.
Although the ADC is not production tested with a 2.5V
reference as shown, linearity will not change more than
0.1 LSB. See Figure 2-2 and 2-9 for DNL and INL
errors versus V
between the high pass corner and the acquisition time.
The value of C will need to be quite large in order to
bring down the high pass corner. The value of R needs
to be 1 kΩ or less, since higher input impedances
© 2007 Microchip Technology Inc.
Legend
VA
C
I
leakage
sample
CHx
C
Biasing Solutions
R
R
SS
VA
pin
R
ss
V
SS
s
MAINTAINING MINIMUM CLOCK
SPEED
t
=
=
=
=
=
=
=
=
=
CHx
REF
signal source
source impedance
input channel pad
input pin capacitance
threshold voltage
leakage current at the pin
due to various junctions
sampling switch
sampling switch resistor
sample/hold capacitance
at V
Analog Input Model.
DD
= 5V. A trade-off exists
7 pF
C
PIN
CONV
V
DD
V
V
) is 85 kHz.
T
T
= 0.6V
= 0.6V
I
±1 nA
LEAKAGE
require additional acquisition time. Using the values in
Figure 6-4, we have a 100 Hz corner frequency. See
Figure 2-12 for the relationship between input imped-
ance and acquisition time.
FIGURE 6-4:
circuit for bipolar operation.
Using an external operational amplifier on the input
allows for gain and buffers the input signal from the
input to the ADC, allowing for a higher source
impedance. This circuit is shown in Figure 6-5.
V
IN
10 µF C
SS
1 k
1 µF
Sampling
Switch
Ω
R
Ρ
S
V
= 1 kΩ
Pseudo-differential biasing
IN+
IN-
OUT
MCP1525
V
MCP3301
MCP3301
SS
V
C
= DAC capacitance
= 25 pF
IN
SAMPLE
0.1 µF
V
REF
DS21700C-page 17
V
DD
0.1 µF
= 5V
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