lpc2106fhn48/00 NXP Semiconductors, lpc2106fhn48/00 Datasheet - Page 23

lpc2106fhn48/00

Manufacturer Part Number

lpc2106fhn48/00

Description

Single-chip 32-bit Microcontrollers; 128 Kb Isp/iap Flash With 64 Kb/32 Kb/16 Kb Ram

Manufacturer

NXP Semiconductors

Datasheet

1.LPC2106FHN4800.pdf (35 pages)

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Philips Semiconductors

LPC2104_2105_2106_6

Product data sheet

6.17.7 VPB bus

6.18.1 EmbeddedICE

6.18 Emulation and debugging

In Power-down mode, the oscillator is shut down and the chip receives no internal clocks.

The processor state and registers, peripheral registers, and internal SRAM values are

preserved throughout Power-down mode and the logic levels of chip output pins remain

static. The Power-down mode can be terminated and normal operation resumed by either

a Reset or certain speciﬁc interrupts that are able to function without clocks. Since all

dynamic operation of the chip is suspended, Power-down mode reduces chip power

consumption to nearly zero.

A Power Control for Peripherals feature allows individual peripherals to be turned off if

they are not needed in the application, resulting in additional power savings.

The VPB divider determines the relationship between the processor clock (CCLK) and the

clock used by peripheral devices (PCLK). The VPB divider serves two purposes. The ﬁrst

is to provide peripherals with the desired PCLK via VPB bus so that they can operate at

the speed chosen for the ARM processor. In order to achieve this, the VPB bus may be

slowed down to

properly at power-up (and its timing cannot be altered if it does not work since the VPB

divider control registers reside on the VPB bus), the default condition at reset is for the

VPB bus to run at

is to allow power savings when an application does not require any peripherals to run at

the full processor rate. Because the VPB divider is connected to the PLL output, the PLL

remains active (if it was running) during Idle mode.

The LPC2104/2105/2106 support emulation and debugging via a JTAG serial port. A trace

port allows tracing program execution. Each of these functions requires a trade-off of

debugging features versus device pins. Because the LPC2104/2105/2106 are provided in

a small package, there is no room for permanently assigned JTAG or Trace pins. An

alternate JTAG port allows an option to debug functions assigned to the pins used by the

primary JTAG port.

Standard ARM EmbeddedICE logic provides on-chip debug support. The debugging of

the target system requires a host computer running the debugger software and an

EmbeddedICE protocol convertor. EmbeddedICE protocol convertor converts the Remote

Debug Protocol commands to the JTAG data needed to access the ARM core.

The ARM core has a Debug Communication Channel function built-in. The debug

communication channel allows a program running on the target to communicate with the

host debugger or another separate host without stopping the program ﬂow or even

entering the debug state. The debug communication channel is accessed as a

co-processor 14 by the program running on the ARM7TDMI-S core. The debug

communication channel allows the JTAG port to be used for sending and receiving data

without affecting the normal program ﬂow. The debug communication channel data and

control registers are mapped in to addresses in the EmbeddedICE logic.

of the processor clock rate. The second purpose of the VPB divider

Rev. 06 — 25 July 2006

of the processor clock rate. Because the VPB bus must work

LPC2104/2105/2106

Single-chip 32-bit microcontrollers

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