Datasheet
2003 Microchip Technology Inc. Preliminary DS40300C-page 59
PIC16F62X
10.0 VOLTAGE REFERENCE
MODULE
The Voltage Reference is a 16-tap resistor ladder
network that provides a selectable voltage reference.
The resistor ladder is segmented to provide two ranges
of V
REF values and has a power-down function to
conserve power when the reference is not being used.
The VRCON register controls the operation of the
reference as shown in Figure 10-1. The block diagram
is given in Figure 10-1.
10.1 Configuring the Voltage Reference
The Voltage Reference can output 16 distinct voltage
levels for each range.
The equations used to calculate the output of the
Voltage Reference are as follows:
if V
RR = 1: VREF = (VR<3:0>/24) x VDD
if VRR = 0: VREF = (VDD x 1/4) + (VR<3:0>/32) x
V
DD
The setting time of the Voltage Reference must be
considered when changing the V
REF output
(Table 17-2). Example 10-1 shows an example of how
to configure the Voltage Reference for an output
voltage of 1.25V with V
DD = 5.0V.
REGISTER 10-1: VRCON REGISTER (ADDRESS: 9Fh)
FIGURE 10-1: VOLTAGE REFERENCE BLOCK DIAGRAM
R/W-0 R/W-0 R/W-0 U-0 R/W-0 R/W-0 R/W-0 R/W-0
V
REN VROE VRR —VR3 VR2 VR1 VR0
bit 7 bit 0
bit 7 V
REN: VREF Enable
1 = V
REF circuit powered on
0 = V
REF circuit powered down, no IDD drain
bit 6 V
ROE: VREF Output Enable
1 = V
REF is output on RA2 pin
0 = V
REF is disconnected from RA2 pin
bit 5 V
RR: VREF Range selection
1 = Low Range
0 = High Range
bit 4 Unimplemented: Read as '0'
bit 3-0 V
R<3:0>: VREF value selection 0 ≤ VR [3:0] ≤ 15
When V
RR = 1: VREF = (VR<3:0>/ 24) * VDD
When VRR = 0: VREF = 1/4 * VDD + (VR<3:0>/ 32) * VDD
Legend:
R = Readable bit W = Writable bit U = Unimplemented bit, read as ‘0’
-n = Value at POR ’1’ = Bit is set ’0’ = Bit is cleared x = Bit is unknown
Note 1: R is defined in Table 17-2.
Vrr
8R
Vr3
Vr0
(From VRCON<3:0>)
16-1 Analog Mux
8R
R
R
R
R
VREN
Vref
16 Stages
VDD
VSS VSS