LPC2926_27_29 NXP Semiconductors, LPC2926_27_29 Datasheet - Page 53

The LPC2926/2927/2929 combine an ARM968E-S CPU core with two integrated TCMblocks operating at frequencies of up to 125 MHz, Full-speed USB 2

LPC2926_27_29

Manufacturer Part Number

LPC2926_27_29

Description

The LPC2926/2927/2929 combine an ARM968E-S CPU core with two integrated TCMblocks operating at frequencies of up to 125 MHz, Full-speed USB 2

Manufacturer

NXP Semiconductors

Datasheet

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LPC2926_27_29

Product data sheet

Generation of the main clock is restricted by the frequency range of the PLL clock input. See

6.16.2.2 PLL functional description

generator. The RDET register keeps track of which clocks are active and inactive, and the

appropriate ‘CLK_SEL’ values are masked and unmasked accordingly. Each clock

detector can also generate interrupts at clock activation and deactivation so that the

system can be notified of a change in internal clock status.

Clock detection is done using a counter running at the BASE_PCR_CLK frequency. If no

positive clock edge occurs before the counter has 32 cycles of BASE_PCR_CLK the clock

is assumed to be inactive. As BASE_PCR_CLK is slower than any of the clocks to be

detected, normally only one BASE_PCR_CLK cycle is needed to detect activity. After

reset all clocks are assumed to be ‘non-present’, so the RDET status register will be

correct only after 32 BASE_PCR_CLK cycles.

Note that this mechanism cannot protect against a currently-selected clock going from

active to inactive state. Therefore an inactive clock may still be sent to the system under

special circumstances, although an interrupt can still be generated to notify the system.

Glitch-Free Switching:

switched glitch-free, both at the output generator stage and also at secondary source

generators.

In the case of the PLL the clock will be stopped and held low for long enough to allow the

PLL to stabilize and lock before being re-enabled. For all non-PLL Generators the switch

will occur as quickly as possible, although there will always be a period when the clock is

held low due to synchronization requirements.

If the current clock is high and does not go low within 32 cycles of BASE_PCR_CLK it is

assumed to be inactive and is asynchronously forced low. This prevents deadlocks on the

interface.

A block diagram of the PLL is shown in

analog section. This block compares the phase and frequency of the inputs and generates

the main clock

divider to create the output clock, or sent directly to the output. The main output clock is

then divided by M by the programmable feedback divider to generate the feedback clock.

The output signal of the analog section is also monitored by the lock detector to signal

when the PLL has locked onto the input clock.

. These clocks are either divided by 2 × P by the programmable post

All information provided in this document is subject to legal disclaimers.

Rev. 5 — 28 September 2010

Provisions are included in the CGU to allow clocks to be

ARM9 microcontroller with CAN, LIN, and USB

Figure

14. The input clock is fed directly to the

LPC2926/2927/2929

Table

36, Dynamic characteristics.

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LPC2926_27_29 NXP Semiconductors, LPC2926_27_29 Datasheet - Page 53

LPC2926_27_29

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