1 stop mode, 2 start mode, 3 active mode – Rainbow Electronics ATtiny43U User Manual

38

8048B–AVR–03/09

ATtiny43U

8.2.1

Stop Mode

The boost converter enters Stop Mode (see

Figure 8-3 on page 37

for modes of operation) when

input voltage ,V

BAT

, is below the shutdown voltage, V

STOP

(see

Table 20-7 on page 159

). Alter-

natively, the boost converter enters Stop Mode when instructed by firmware to do so.

In this mode of operation the boost converter is not active and current consumption is decreased
to a minimum. This is in order to prevent battery discharge and to avoid battery damage.

The voltage at the converter output, V

CC

, has no effect in this mode. The converter monitors the

voltage of the input pin, V

BAT

, and waits for it to rise above the start voltage, V

START

(see

Table

20-7 on page 159

). When there is sufficient voltage at the input the converter exits Stop Mode

and enters Start Mode.

8.2.2

Start Mode

The converter switches from Stop Mode to Start Mode (see

Figure 8-3 on page 37

) as soon as

the input voltage, V

BAT

, goes above the start voltage, V

START

(see

Table 20-7 on page 159

).

Alternatively, the boost converter switches from Active Mode to Start Mode when the output volt-
age drops below V

BOOST

.

In this mode of operation the boost converter pumps up the V

CC

voltage by switcing at a 50%

duty cycle and high frequency, until it reaches V

BOOST

.

All loads should be disconnected during this stage. The boost converter is designed to remain in
Start Mode for a short moment, but it is optimised to bring the microcontroller on line, only. If
there are additional loads connected to the V

CC

pin the boost converter may not reach the V

CC

voltage required to go into Active Mode.

8.2.3

Active Mode

The converter enters Active Mode of operation (see

Figure 8-3 on page 37

) when both input and

output voltages are sufficiently high. This means that V

BAT

is above V

START

and V

CC

is above

V

BOOST

. If input voltage drops below V

STOP

or output voltage drops below V

BOOST

the converter

will exit Active Mode. Alternatively, firmware can force the boost converter to exit Active Mode
and enter Stop Mode.

In this mode of operation, the boost converter keeps V

CC

within limits given in

Table 20-7 on

page 159

by constantly adjusting the duty cycle between energy charge and discharge phases.

The duty cycle is affected mainly by input voltage, V

BAT

, load current, I

LOAD

, and temperature.

By default, the boost converter operates in Active Regulated Mode but when load current drops
sufficiently low it will enter Active Low Current Mode, as explained in

“Output Voltage versus

Load Current”

. In Active Low Current Mode current consumption is minimised on the expense of

output voltage regulation.

8.2.4

Examples

Figure 8-4

illustrates operating modes and input and output voltages of the boost converter. As

input voltage, V

BAT

, rises above V

START

(see

“Boost Converter Characteristics” on page 159

) the

converter enters Start Mode and output voltage, V

CC

, begins to rise. At V

BOOST

output voltage

the converter exits Start Mode and goes into Active Mode. When output voltage exceeds the
power-on threshold V

POT

(see

“System and Reset Characteristics” on page 158

) the microcon-

troller is released from reset.