Rainbow-electronics ATtiny43U Bedienungsanleitung Seite 46
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46
8048B–AVR–03/09
ATtiny43U
8.7 Typical Applications
A typical use of the boost converter is illustrated in Figure 8-2 on page 37. Components can be
optimized depending on the type of application. Table 8-2, below, presents recommendations for
three different types of applications (cost effective, high output current and long battery life). All
values are guidelines, only.
Notes: 1. Low ESR required.
2. High reverse leakage current, increases current consumption.
3. The diode is the largest individual contributor to battery life. The example diode keeps the
boost converter running and maintains a reasonable efficiency level.
4. Depends on internal resistance of power supply.
5. Depends on load current. May not be sufficient for maximum current rating.
8.8 Characteristics
Electrical characteristics of the boost converter are given in Table 20-7 on page 159. Typical
characteristics can be found under section “Boost Converter” on page 165.
8.9 Potential Limitations
When the device is powered via the boost converter some usage limitiations may apply. For
example, the highest allowed operating frequency of the device depends on supply voltage (see
“Speed Grades” on page 156) and the boost converter output voltage varies within the limits
given in Table 20-7 on page 159. This means that if the design allows the boost converter to go
into Active Low Current Mode the supply voltage will drop periodically, affecting the maximum
allowed operating frequency.
Provided the load current remains sufficiently high the boost converter will never enter Active
Low Current Mode and the supply voltage will remain high enough to run the device at higher
frequencies. The boost converter status bit BS can be used to determine if the boost converter is
in Low Current Mode (see “ADCSRB – ADC Control and Status Register B” on page 47).
Since the entire device is powered from the boost converter output variations will show in all
peripherals. This means that, for example, high levels of I/O pins may vary with supply voltage.
8.10 Bypassing the Boost Converter
It is possible to bypass and disable the boost converter so that the device can be powered
directly from an external supply. To force the boost converter into Stop Mode, connect pin V
BAT
to ground and provide the device with supply directly to the V
CC
pin. To permanently disable the
Table 8-2. Recommended Components and Values for Various Designs
Symbol Component Cost Effective High Current Battery Life Unit
L
1
Inductor 15 15
(1)
15
(1)
µH
D
1
Schottky diode 10MQ100N 10BQ015
(2)
10BQ040
(3)
R
1
Resistor 680 680 680 Ω
C
1
Input Capacitor 1
(4)
4.7 4.7 µF
C
2
Secondary Input Cap. 100 100 100 nF
C
3
Output Capacitor 10
(5)
22 22 µF
C
4
Secondary Output Cap. – 22 22 nF
- Features 1
- 4. AVR CPU Core 7
- Initial Value00000000 9
- ATtiny43U 10
- 4.6 Stack Pointer 11
- 5. Memories 15
- 6.3 System Clock Prescaler 27
- 7.1 Sleep Modes 31
- 0 1 ADC Noise Reduction 35
- 1 0 Power-down 35
- 11Reserved 35
- SM1 SM0 Sleep Mode 35
- START MODE 41
- 8.6 Component Selection 43
- 8.11 Register Description 47
- 9.2 Reset Sources 49
- 9.3 Power-on Reset 49
- 9.6 Watchdog Reset 51
- 9.8 Watchdog Timer 51
- 10. Interrupts 57
- 10.3 Register Description 59
- DATA B U S 63
- INSTRUCTIONS 65
- SYNC LATCH 65
- SYSTEM CLK 65
- 11.3 Alternate Port Functions 67
- 12.1 Features 79
- 12.2 Overview 79
- 12.5 Output Compare Unit 81
- DATA BU S 83
- (Toggle) 85
- MAX - 1 MAX BOTTOM BOTTOM + 1 89
- 13.3 Register Description 99
- 14.3 Functional Descriptions 101
- 8048B–AVR–03/09 103
- A B D EC F 105
- 14.4 Alternative USI Usage 107
- 14.5 Register Descriptions 107
- Initial Value 0 0 0 0 0 0 0 0 109
- Bit 7 6 5 4 3 2 1 0 109
- 0x0E (0x2E) 109
- 0x10 (0x30) MSB LSB USIBR 111
- Read/Write R R R R R R R R 111
- 15.2 Register Description 113
- 16.1 Features 115
- 16.2 Overview 115
- 16.7 ADC Noise Canceler 121
- Output Code 123
- 16.11 ADC Conversion Result 125
- 16.12 Temperature Measurement 125
- 17.1 Features 131
- 17.2 Overview 131
- 17.3 Physical Interface 131
- Bit 76543210 135
- Rd ––––––LB2LB1 135
- 18.9 Register Description 137
- 19. Memory Programming 139
- 19.7 Serial Programming 151
- 20.2 DC Characteristics 155
- 20.4 Clock Characteristics 157
- Gain Calibration) 161
- = 5V ± 10% 163
- 21.1 Boost Converter 165
- 22. Register Summary 167
- 23. Instruction Set Summary 169
- 24. Ordering Information 171
- 25.2 20S2 173
- 27.1 Rev. 8048B-03/09 175
- 27.2 Rev. 8048A-02/09 175
- Table of Contents 177
- Headquarters International 182
- Product Contact 182
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