LPC2106 Philips Semiconductors, LPC2106 Datasheet - Page 20
LPC2106
Manufacturer Part Number
LPC2106
Description
Single-chip 32-bit microcontrollers; 128 kB ISP/IAP Flash with 64 kB/32 kB/16 kB RAM
Manufacturer
Philips Semiconductors
Datasheet
1.LPC2106.pdf
(32 pages)
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Philips Semiconductors
9397 750 12792
Product data
6.17.1 Crystal oscillator
6.17.2 PLL
6.17.3 Reset and wake-up timer
6.17 System control
The oscillator supports crystals in the range of 1 MHz to 30 MHz. The oscillator
output frequency is called FOSC and the ARM processor clock frequency is referred
to as cclk for purposes of rate equations, etc. FOSC and cclk are the same value
unless the PLL is running and connected. Refer to
information.
The PLL accepts an input clock frequency in the range of 10 MHz to 25 MHz. The
input frequency is multiplied up into the range of 10 MHz to 60 MHz with a Current
Controlled Oscillator (CCO). The multiplier can be an integer value from 1 to 32 (in
practice, the multiplier value cannot be higher than 6 on this family of microcontrollers
due to the upper frequency limit of the CPU). The CCO operates in the range of
156 MHz to 320 MHz, so there is an additional divider in the loop to keep the CCO
within its frequency range while the PLL is providing the desired output frequency.
The output divider may be set to divide by 2, 4, 8, or 16 to produce the output clock.
Since the minimum output divider value is 2, it is insured that the PLL output has a
50% duty cycle.The PLL is turned off and bypassed following a chip Reset and may
be enabled by software. The program must configure and activate the PLL, wait for
the PLL to Lock, then connect to the PLL as a clock source.
Reset has two sources on the LPC2104, LPC2105 and LPC2106: the RST pin and
Watchdog Reset. The RST pin is a Schmitt trigger input pin with an additional glitch
filter. Assertion of chip Reset by any source starts the Wake-up Timer (see Wake-up
Timer description below), causing the internal chip reset to remain asserted until the
external Reset is de-asserted, the oscillator is running, a fixed number of clocks have
passed, and the on-chip Flash controller has completed its initialization.
When the internal Reset is removed, the processor begins executing at address 0,
which is the Reset vector. At that point, all of the processor and peripheral registers
have been initialized to predetermined values.
The wake-up timer ensures that the oscillator and other analog functions required for
chip operation are fully functional before the processor is allowed to execute
instructions. This is important at power on, all types of Reset, and whenever any of
the aforementioned functions are turned off for any reason. Since the oscillator and
other functions are turned off during Power-down mode, any wake-up of the
processor from Power-down mode makes use of the Wake-up Timer.
The Wake-up Timer monitors the crystal oscillator as the means of checking whether
it is safe to begin code execution. When power is applied to the chip, or some event
caused the chip to exit Power-down mode, some time is required for the oscillator to
produce a signal of sufficient amplitude to drive the clock logic. The amount of time
depends on many factors, including the rate of V
the type of crystal and its electrical characteristics (if a quartz crystal is used), as well
as any other external circuitry (e.g. capacitors), and the characteristics of the
oscillator itself under the existing ambient conditions.
Rev. 04 — 05 February 2004
LPC2104/2105/2106
Single-chip 32-bit microcontrollers
DD
Section 6.17.2 “PLL”
ramp (in the case of power on),
© Koninklijke Philips Electronics N.V. 2004. All rights reserved.
for additional
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