CP3BT10G38 National Semiconductor, CP3BT10G38 Datasheet - Page 57

CP3BT10G38

Manufacturer Part Number

CP3BT10G38

Description

IC CPU RISC W/LLC&USB 100-LQFP

Manufacturer

National Semiconductor

Datasheet

1.CP3BT10G38.pdf (210 pages)

Specifications of CP3BT10G38

Applications

Connectivity Processor

Core Processor

CR16C

Program Memory Type

FLASH (256 kB)

Controller Series

CP3000

Ram Size

10K x 8

Interface

Bluetooth, ACCESS.bus, Audio, UART, USB, Microwire/SPI

Number Of I /o

Voltage - Supply

2.25 V ~ 2.75 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

100-LQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

*CP3BT10G38

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12.0 Power Management

The Power Management Module (PMM) improves the effi-

ciency of the CP3BT10 by changing the operating mode

(and therefore the power consumption) according to the re-

quired level of device activity. The device implements four

power modes:

Table 26 summarizes the differences between power

modes: the state of the high-frequency oscillator (on or off),

the System Clock source (clock used by most modules),

and the clock source used by the Timing and Watchdog

Module (TWM). The high-frequency oscillator generates the

12-MHz Main Clock, and the low-frequency oscillator gener-

ates a 32.768 kHz clock. The Slow Clock can be driven by

the 32.768 kHz clock or a scaled version of the Main Clock.

The low-frequency oscillator continues to operate in all four

modes and power must be provided continuously to the de-

vice power supply pins. In Halt mode, however, Slow Clock

does not toggle, and as a result, the TWM timer and Watch-

dog Module do not operate. In Power Save mode, the high-

frequency oscillator can be turned on or off under software

control, as long as the low-frequency oscillator is used to

drive Slow Clock.

12.1

In Active mode, the high-frequency oscillator is active and

generates the 12-MHz Main Clock. The 32.768 kHz oscilla-

tor is active and may be used to generate the Slow Clock.

The PLL can be active or inactive, as required. Most on-chip

modules are driven by the System Clock. The System Clock

can be the PLL Clock after a programmable divider or the

12-MHz Main Clock. The activity of peripheral modules is

controlled by their enable bits.

Power consumption can be reduced in this mode by selec-

tively disabling modules and by executing the WAIT instruc-

tion. When the WAIT instruction is executed, the CPU stops

executing new instructions until it receives an interrupt sig-

nal. After reset, the CP3BT10 is in Active Mode.

Active

Power Save On or Off

Idle

Halt

Active

Power Save

Idle

Halt

Mode

Table 26 Power Mode Operating Summary

ACTIVE MODE

Off

High-Frequency

Oscillator

Main Clock Slow Clock

Slow Clock Slow Clock

None

System

Clock

Slow Clock

None

TWM Clock

12.2

In Power Save mode, Slow Clock is used as the System

Clock which drives the CPU and most on-chip modules. If

Slow Clock is driven by the 32.768 kHz oscillator and no on-

chip module currently requires the 12-MHz Main Clock, soft-

ware can disable the high-frequency oscillator to further re-

duce power consumption. Auxiliary Clocks 1 and 2 can be

turned off under software control before switching to a re-

duced power mode, or they may remain active as long as

Main Clock is also active. If the system does not require the

PLL output clock, the PLL can be disabled. Alternatively, the

Main Clock and the PLL can also be controlled by the Hard-

ware Clock Control function, if enabled. The clock architec-

ture is described in Section 11.0.

The Bluetooth LLC can either be switched to the 32 kHz

clock internally in the module, or it remains running off Aux-

iliary clock 1 as long as the Main Clock and Auxiliary Clock

1 are enabled.

In Power Save mode, some modules are disabled or their

operation is restricted. Other modules, including the CPU,

continue to function normally, but operate at a reduced clock

rate. Details of each module’s activity in Power Save mode

are described in each module’s descriptions.

It is recommended to keep CPU activity at a minimum by ex-

ecuting the WAIT instruction to guarantee low power con-

sumption in the system.

12.3

In Idle mode, the System Clock is disabled and therefore the

clock is stopped to most modules of the device. The DHC

and DMC bits in the PMMCR register must be set before en-

tering this mode to disable the PLL and the high-frequency

oscillator. The low-frequency oscillator remains active. The

Power Management Module (PMM) and the Timing and

Watchdog Module (TWM) continue to operate off the Slow

Clock. Idle mode can only be entered from Active mode.

12.4

In Halt mode, all the device clocks, including the System

Clock, Main Clock, and Slow Clock, are disabled. The DHC

and DMC bits in the PMMCR register must be set before en-

tering this mode. The high-frequency oscillator and PLL are

off. The low-frequency oscillator continues to operate, how-

ever its circuitry is optimized to guarantee lowest possible

power consumption. This mode allows the device to reach

the absolute minimum power consumption without losing its

state (memory, registers, etc.). Halt mode can only be en-

tered from Active mode.

12.5

The Hardware Clock Control (HCC) mechanism gives the

Bluetooth Lower Link Controller (LLC) individual control

over the high-frequency oscillator and the PLL. The Blue-

tooth LLC can enter a Sleep mode for a specified number of

low-frequency clock cycles. While the Bluetooth LLC is in

Sleep mode and the CP3BT10 is in Power Savemode, the

HCC mechanism may be used to control whether the high-

frequency oscillator, PLL, or both units are disabled.

POWER SAVE MODE

IDLE MODE

HALT MODE

HARDWARE CLOCK CONTROL

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CP3BT10G38 National Semiconductor, CP3BT10G38 Datasheet - Page 57

CP3BT10G38

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