Datasheet
© 2009 Microchip Technology Inc. DS41288F-page 81
PIC16F610/616/16HV610/616
9.3 A/D Acquisition Requirements
For the ADC to meet its specified accuracy, the charge
holding capacitor (C
HOLD) must be allowed to fully
charge to the input channel voltage level. The Analog
Input model is shown in Figure 9-4. The source
impedance (R
S) and the internal sampling switch (RSS)
impedance directly affect the time required to charge the
capacitor CHOLD. The sampling switch (RSS) impedance
varies over the device voltage (V
DD), see Figure 9-4.
The maximum recommended impedance for analog
sources is 10 kΩ. As the source impedance is
decreased, the acquisition time may be decreased.
After the analog input channel is selected (or changed),
an A/D acquisition must be done before the conversion
can be started. To calculate the minimum acquisition
time, Equation 9-1 may be used. This equation
assumes that 1/2 LSb error is used (1024 steps for the
ADC). The 1/2 LSb error is the maximum error allowed
for the ADC to meet its specified resolution.
EQUATION 9-1: ACQUISITION TIME EXAMPLE
TACQ Amplifier Settling Time Hold Capacitor Charging Time Temperature Coefficient++=
T
AMP TC TCOFF++=
5µs T
C Temperature - 25°C()0.05µs/°C()[]++=
TC CHOLD RIC RSS RS++() ln(1/2047)–=
10pF 1k
Ω
7k
Ω
10k
Ω
++()– ln(0.0004885)=
1.37= µs
T
ACQ 5µs 1.37µs 50°C- 25°C()0.05µs/°C()[]++=
7.67µs=
VAPPLIED 1e
Tc–
RC
---------
–
⎝⎠
⎜⎟
⎛⎞
VAPPLIED 1
1
2047
------------–
⎝⎠
⎛⎞
=
V
APPLIED 1
1
2047
------------–
⎝⎠
⎛⎞
VCHOLD=
VAPPLIED 1e
TC–
RC
----------
–
⎝⎠
⎜⎟
⎛⎞
VCHOLD=
;[1] VCHOLD charged to within 1/2 lsb
;[2] V
CHOLD charge response to VAPPLIED
;combining [1] and [2]
The value for T
C can be approximated with the following equations:
Solving for T
C:
Therefore:
Temperature 50°C and external impedance of 10k
Ω
5.0V VDD=
Assumptions:
Note 1: The reference voltage (VREF) has no effect on the equation, since it cancels itself out.
2: The charge holding capacitor (C
HOLD) is not discharged after each conversion.
3: The maximum recommended impedance for analog sources is 10 kΩ. This is required to meet the pin
leakage specification.