CS5535-UDCF AMD (ADVANCED MICRO DEVICES), CS5535-UDCF Datasheet - Page 170

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CS5535-UDCF

Manufacturer Part Number
CS5535-UDCF
Description
Manufacturer
AMD (ADVANCED MICRO DEVICES)
Datasheet

Specifications of CS5535-UDCF

Operating Temperature (min)
0C
Operating Temperature (max)
85C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Lead Free Status / RoHS Status
Compliant

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5.16.4.1 Clock Selection and Counter Increment
The MFGPT can use either the 32 kHz clock or 14.318
MHz clock as the clock source (MFGPT6 and MFGPT7 in
Standby power domain are limited to the 32 kHz clock).
When the Counter Enable bit is high, the MFGPT is acti-
vated and capable of counting. An actual increment is per-
formed when the selected prescaler divide-by signals the
increment; this is done through the Scale Factor selecting
one of 16 signals. Table 5-32 shows how the Scale Factor
effectively divides down the incoming clock.
170
Table 5-32. MFGPT Prescaler Clock Divider
Scale Factor
0000
0001
0010
0011
0100
0101
0110
0111
1000
1001
1010
1011
1100
1101
1110
1111
31506B
15
15
14
14
Input Clock Divide-By
13
13
Figure 5-52. MFGPT Bit Reverse Logic
12
12
16384
32768
1024
2048
4096
8192
128
256
512
16
32
64
1
2
4
8
11
11
Output Word to Compare Circuit
Input Word from Up Counter
10
10
9
9
8
8
7
7
5.16.4.2 Compare 1 and Compare 2 Outputs
When the Up Counter reaches the Compare 1 Value, the
Compare 1 Output is asserted. When the Compare 2 Value
is reached, the Compare 2 Output is asserted, and the Up
Counter then synchronously clears and restarts. The
MFGPT outputs coming from Compare 1 and Compare 2
are all glitch-free outputs.
The compare outputs and events may change in the mid-
dle of a prescaler period if new values are written to the Up
Counter, Compare 1 Value, or Compare 2 Value registers.
These compare outputs can be used to trigger their
respective events and drive GPIO outputs. The events are
used to trigger interrupts, NMI, and reset.
5.16.4.3 GPIO Input
The Up Counter could also be software selected to have a
GPIO input positive edge as another source for the counter
to clear and restart. The GPIO input signal is asynchronous
to the timer and the timer uses a flip-flop to capture the
GPIO rising edge. It takes up to one prescaler clock period
plus two MFGPT clock periods from the GPIO rising edge
for the clear to take effect. Once the counter is cleared, this
edge detect circuit can then accept a new GPIO edge.
Each individual pulse can be as short as a few nanosec-
onds wide for the rising edge to be captured. If this feature
is not selected or the counter is disabled, the clear counter
output and the edge detector are kept de-asserted.
5.16.4.4 Bit Reverse and Pulse Density Modulation
Figure 5-52 shows how the Little Endian/Big Endian Bit
Reverse functions.
Table 5-33 on page 171 shows a 3-bit example of pulse
density modulation; note that the MFGPT has a 16-bit
implementation. If the desired pulse train is of the opposite
polarity, this can be inverted in the GPIO or generated with
a different Compare 1 value.
6
6
AMD Geode™ CS5535 Companion Device Data Book
5
5
4
4
3
3
Multi-Function General Purpose Timer
2
2
1
1
0
0

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