HCS320_11 MICROCHIP [Microchip Technology], HCS320_11 Datasheet - Page 8
HCS320_11
Manufacturer Part Number
HCS320_11
Description
Manufacturer
MICROCHIP [Microchip Technology]
Datasheet
1.HCS320_11.pdf
(38 pages)
HCS320
of unique values. This can be done by programming
OVR0 and OVR1 to 1s at the time of production. The
encoder will automatically clear OVR0 the first time that
the synchronization value wraps from 0xFFFF to
0x0000 and clear OVR1 the second time the counter
wraps. Once cleared, OVR0 and OVR1 cannot be set
again, thereby creating a permanent record of the
counter overflow. This prevents fast cycling of 64K
counter. If the decoder system is programmed to track
the overflow bits, then the effective number of unique
synchronization values can be extended to 196,608.
3.5.3
BSL0 and BSL1 select the speed of transmission and
the code word blanking. Table 3-3 shows how the bits
are used to select the different baud rates and
Section 5.6 provides detailed explanation in code word
blanking.
TABLE 3-3:
DS41097D-page 8
BSL1
0
0
1
1
BSL0
BSL1)
BAUD RATE SELECT BITS (BSL0,
0
1
0
1
BAUD RATE SELECT
Basic Pulse
Element
400 μs
200 μs
100 μs
100 μs
Code Words
Transmitted
1 out of 2
1 out of 2
1 out of 4
All
3.5.4
The low voltage trip point select bit is used to tell the
HCS320 what V
will be used by the device to determine when to send
the voltage low signal to the receiver. When this bit is
set to a one, the V
from a 9.0 volt or 12.0 volt V
then the V
Figure 3-1 for voltage trip point.
FIGURE 3-1:
Volts (V)
DD
LOW VOLTAGE TRIP POINT
SELECT
5.5
5.0
4.5
4.0
3.5
3.0
2.5
9.0
8.5
8.0
7.5
7.0
level is assumed to be 6.0 volts. Refer to
-40
DD
DD
-20
level is being used. This information
level is assumed to be operating
VOLTAGE TRIP POINTS
BY CHARACTERIZATION)
0
© 2011 Microchip Technology Inc.
20 40
Temp (C)
DD
V
V
level. If the bit is set low,
LOW
LOW
60 80
sel = 1
sel = 0
100
V
Max
Min
Max
Min
LOW
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