SPC5561MZQ132 Freescale Semiconductor / Motorola, SPC5561MZQ132 Datasheet - Page 21
SPC5561MZQ132
Manufacturer Part Number
SPC5561MZQ132
Description
Power Architecture TM 32-bit MCU for Automotive
Manufacturer
Freescale Semiconductor / Motorola
Datasheet
1.SPC5561MZQ132.pdf
(56 pages)
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Freescale Semiconductor
Spec
Nominal crystal and external reference values are worst-case not more than 1%. The device operates correctly if the frequency
remains within ± 5% of the specification limit. This tolerance range allows for a slight frequency drift of the crystals over time.
The designer must thoroughly understand the drift margin of the source clock.
The 8–20 MHz crystal or external reference values have PLLCFG[2] pulled low.
The 20–40 MHz crystal and external reference values have PLLCFG[2] pulled high, and the minimum frequency must be greater
than 20 MHz. Use the 8–20 MHz setting (PLLCFG[2] pulled low) if a 20 MHz crystal or external reference is required.
To exit RESET when using 40 MHz, set PLLCFG[2] to 1.
All internal registers retain data at 0 Hz.
Up to the maximum frequency rating of the device (refer to
Loss of reference frequency is defined as the reference frequency detected internally, which transitions the PLL into self-clocked
mode.
The PLL operates at self-clocked mode (SCM) frequency when the reference frequency falls below f
measured on the CLKOUT ball with the divider set to divide-by-two of the system clock.
NOTE: In SCM, the MFD and PREDIV have no effect and the RFD is bypassed.
Use the EXTAL input high voltage parameter when using the FlexCAN oscillator in crystal mode (no quartz crystals or
resonators). (V
Use the EXTAL input low voltage parameter when using the FlexCAN oscillator in crystal mode (no quartz crystals or
resonators). (V
I
C
This specification applies to the period required for the PLL to relock after changing the MFD frequency control bits in the
synthesizer control register (SYNCR). From power up with crystal oscillator reference, the lock time also includes the crystal
startup time.
PLL is operating in 1:1 PLL mode.
V
Jitter is the average deviation from the programmed frequency measured over the specified interval at maximum f
Measurements are made with the device powered by filtered supplies and clocked by a stable external clock signal. Noise
injected into the PLL circuitry via V
for a given interval. CLKOUT divider is set to divide-by-two.
Values are with frequency modulation disabled. If frequency modulation is enabled, jitter is the sum of (jitter + Cmod).
Modulation depth selected must not result in f
f
Maximum value for dual controller (1:1) mode is (f
xtal
19
20
21
22
sys
PCB_EXTAL
DDE
is the oscillator bias current out of the XTAL pin with both EXTAL and XTAL pins grounded.
=
= 3.0–3.6 V.
f
ico
CLKOUT period jitter, measured at f
Frequency modulation range limit
ICO frequency
f
f
Predivider output frequency (to PLL)
ico
ico
(do not exceed f
Peak-to-peak jitter (clock edge to clock edge)
Long term jitter (averaged over a 2 ms interval)
÷ (2
= [ f
= [ f
and C
RFD
ref_crystal
ref_ext
extal
xtal
)
– V
PCB_XTAL
– V
× (MFD + 4) ] ÷ (PREDIV + 1)
extal
xtal
× (MFD + 4) ] ÷ (PREDIV + 1)
sys
) must be ≥ 400 mV for the oscillator’s comparator to produce the output clock.
) must be ≥ 400 mV for the oscillator’s comparator to produce the output clock.
Characteristic
are the measured PCB stray capacitances on EXTAL and XTAL, respectively.
maximum)
Table 12. FMPLL Electrical Specifications (continued)
(V
DDSYN
DDSYN
MPC5561 Microcontroller Data Sheet, Rev. 2.0
= 3.0–3.6 V; V
17
and V
SYS
sys
SSSYN
max:
value greater than the f
MAX
15, 16
and variation in crystal oscillator frequency increase the jitter percentage
18
÷ 2) with the predivider set to 1 (FMPLL_SYNCR[PREDIV] = 0b001).
SS
= V
Table
SSSYN
Symbol
C
f
PREDIV
C
JITTER
1).
f
MOD
ico
= 0.0 V; T
sys
maximum specified value.
A
Minimum
= T
0.8
—
—
48
4
L
to T
H
)
Electrical Characteristics
Maximum
LOR
20
0.01
f
MAX
5.0
2.4
. SCM frequency is
19
sys
.
f
CLKOUT
%f
MHz
MHz
Unit
%
SYS
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