AM186EM-20KC/W AMD [Advanced Micro Devices], AM186EM-20KC/W Datasheet - Page 41
AM186EM-20KC/W
Manufacturer Part Number
AM186EM-20KC/W
Description
High Performance, 80C186-/80C188-Compatible and 80L186-/80L188-Compatible, 16-Bit Embedded Microcontrollers
Manufacturer
AMD [Advanced Micro Devices]
Datasheet
1.AM186EM-20KCW.pdf
(98 pages)
CLOCK AND POWER MANAGEMENT
The clock and power management unit of the
Am186EM and Am188EM microcontrollers includes a
phase-locked loop (PLL) and a second programmable
system clock output (CLKOUTB).
Phase-Locked Loop (PLL)
In a traditional 80C186/188 design, the crystal frequency is
twice that of the desired internal clock. Because of the
internal PLL on the Am186EM and Am188EM
microcontrollers, the internal clock generated by the
Am186EM and Am188EM microcontrollers (CLKOUTA) is
the same frequency as the crystal. The PLL takes the
crystal inputs (X1 and X2) and generates a 45/55% (worst
case) duty cycle intermediate system clock of the same
frequency. This removes the need for an external 2x
oscillator, reducing system cost. The PLL is reset by an
on-chip power-on reset (POR) circuit.
Crystal-Driven Clock Source
The internal oscillator circuit of the Am186EM and
Am188EM microcontrollers is designed to function with
a parallel-resonant fundamental or third-overtone crys-
tal. Because of the PLL, the crystal frequency should
be equal to the processor frequency. Do not replace a
crystal with an LC or RC equivalent.
The signals X1 and X2 are connected to an internal in-
verting amplifier (oscillator) which provides, along with
the external feedback loading, the necessary phase
shift (Figure 8). In such a positive feedback circuit, the
inverting amplifier has an output signal (X2) 180 de-
grees out of phase of the input signal (X1).
The external feedback network provides an additional
180-degree phase shift. In an ideal system, the input to
X1 will have 360 or zero degrees of phase shift. The ex-
ternal feedback network is designed to be as close to
ideal as possible. If the feedback network is not provid-
ing necessary phase shift, negative feedback will
dampen the output of the amplifier and negatively af-
a. Inverting Amplifier Configuration
C
1
Figure 8.
Crystal
Am186EM and Am188EM Microcontrollers Oscillator Configurations
Am186/188EM and Am186/188EMLV Microcontrollers
C
2
Note 1: Use for Third Overtone Mode
XTAL Frequency L1 Value (Max)
20 MHz
25 MHz
33 MHz
40 MHz
P R E L I M I N A R Y
fect the operation of the clock generator. Values for the
loading on X1 and X2 must be chosen to provide the
necessary phase shift and crystal operation.
Selecting a Crystal
When selecting a crystal, the load capacitance should
always be specified (C
in the oscillation frequency from the desired specified
value (resonance). The load capacitance and the loading
of the feedback network have the following relationship:
where C
the crystal and C
and tuning these values (C
cillate at resonance. This relationship is true for both fun-
damental and third-overtone operation. Finally, there is a
relationship between C
tion of the inverting amplifier, these values need to be off-
set with the larger load on the output (X2). Equal values of
these loads will tend to balance the poles of the inverting
amplifier.
The characteristics of the inverting amplifier set limits
on the following parameters for crystals:
ESR (Equivalent Series Resistance)
Drive Level
The recommended range of values for C
follows:
C
C
The specific values for C
the designer and are dependent on the characteristics of
the chosen crystal and board design.
8.2 H 20%
4.7 H 20%
3.0 H 20%
12 H 20%
1
2
..............................................................................................................
..............................................................................................................
C
L
=
(C
(C
S
is the stray capacitance of the circuit. Placing
1
1
.....................................................................................
+ C
C
2
2
)
)
L
in series across the inverting amplifier
C
C
+ C
2
1
S
1
L
). This value can cause variance
and C
1
1
and C
Note 1
, C
Crystal
200 pF
b. Crystal Configuration
2
2
) allows the crystal to os-
. To enhance the oscilla-
2
must be determined by
Microcontroller
X1
X2
...........
Am186EM
1
80 ohm max
1 mW max
15 pF 20%
22 pF 20%
and C
2
are as
41
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