Datasheet
© 2007 Microchip Technology Inc. DS41202F-page 63
PIC16F684
8.10 Comparator Voltage Reference
The comparator voltage reference module provides an
internally generated voltage reference for the compara-
tors. The following features are available:
• Independent from Comparator operation
• Two 16-level voltage ranges
• Output clamped to V
SS
• Ratiometric with VDD
The VRCON register (Register ) controls the voltage
reference module shown in Figure 8-8.
8.10.1 INDEPENDENT OPERATION
The comparator voltage reference is independent of
the comparator configuration. Setting the VREN bit of
the VRCON register will enable the voltage reference.
8.10.2 OUTPUT VOLTAGE SELECTION
The CVREF voltage reference has 2 ranges with 16
voltage levels in each range. Range selection is
controlled by the VRR bit of the VRCON register. The
16 levels are set with the VR<3:0> bits of the VRCON
register.
The CVREF output voltage is determined by the following
equations:
EQUATION 8-1: CVREF OUTPUT VOLTAGE
The full range of VSS to VDD cannot be realized due to
the construction of the module. See Figure 8-8.
8.10.3 OUTPUT CLAMPED TO VSS
The CVREF output voltage can be set to Vss with no
power consumption by configuring VRCON as follows:
•VREN=0
•VRR=1
•VR<3:0>=0000
This allows the comparator to detect a zero-crossing
while not consuming additional CV
REF module current.
8.10.4 OUTPUT RATIOMETRIC TO VDD
The comparator voltage reference is VDD derived and
therefore, the CV
REF output changes with fluctuations in
V
DD. The tested absolute accuracy of the Comparator
Voltage Reference can be found in Section 15.0
“Electrical Specifications”.
V
RR 1 (low range):=
VRR 0 (high range):=
CV
REF (VDD/4) + =
CV
REF (VR<3:0>/24) VDD×=
(VR<3:0> V
DD/32)×
VRCON: VOLTAGE REFERENCE CONTROL REGISTER
R/W-0 U-0 R/W-0 U-0 R/W-0 R/W-0 R/W-0 R/W-0
VREN
—VRR— VR3 VR2 VR1 VR0
bit 7 bit 0
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
bit 7 VREN: CV
REF Enable bit
1 = CVREF circuit powered on
0 = CV
REF circuit powered down, no IDD drain and CVREF = VSS.
bit 6 Unimplemented: Read as ‘0’
bit 5 VRR: CV
REF Range Selection bit
1 = Low range
0 = High range
bit 4 Unimplemented: Read as ‘0’
bit 3-0 VR<3:0>: CV
REF Value Selection bits (0 ≤ VR<3:0> ≤ 15)
When V
RR = 1: CVREF = (VR<3:0>/24) * VDD
When VRR = 0: CVREF = VDD/4 + (VR<3:0>/32) * VDD