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BUY LM2660M https://www.utsource.net/itm/p/124249.html
Switched Capacitor Voltage Converter
| Parameter |
Symbol |
Conditions |
Min |
Typ |
Max |
Unit |
| Input Voltage |
VIN |
Continuous |
2.7 |
- |
5.5 |
V |
| Output Voltage (Step-Up) |
VOUT1 |
|
3.3 |
- |
5.0 |
V |
| Output Voltage (Step-Down) |
VOUT2 |
|
1.8 |
- |
3.3 |
V |
| Quiescent Current |
IQ |
VIN = 3V, No Load |
- |
45 |
- |
μA |
| Switching Frequency |
fSW |
|
- |
1.0 |
- |
MHz |
| Efficiency |
η |
VIN = 3.3V, IOUT=100mA |
- |
85 |
- |
% |
| Shutdown Current |
ISD |
VIN = 3V |
- |
0.1 |
- |
μA |
Instructions for LM2660M
Input Voltage Range:
- Ensure the input voltage is within the specified range of 2.7V to 5.5V.
Output Configuration:
- For step-up output, configure the external components for a desired output voltage between 3.3V and 5.0V.
- For step-down output, configure the external components for a desired output voltage between 1.8V and 3.3V.
Quiescent Current Management:
- The quiescent current is typically 45μA at no load. Design your circuit considering this value for power budgeting.
Switching Frequency:
- The device operates at a typical switching frequency of 1.0MHz. Ensure that the PCB layout minimizes noise and interference at this frequency.
Efficiency Considerations:
- The efficiency can reach up to 85% under typical conditions (VIN = 3.3V, IOUT = 100mA). Optimize component selection for better performance.
Shutdown Mode:
- Use the shutdown feature to reduce power consumption. In shutdown mode, the current draw is minimized to approximately 0.1μA.
Thermal Considerations:
- Ensure adequate heat dissipation in the design to prevent overheating, especially under high load conditions.
Component Selection:
- Choose capacitors and inductors with appropriate ratings to handle the maximum expected currents and voltages.
PCB Layout:
- Follow recommended PCB layout guidelines provided by the manufacturer to ensure optimal performance and reliability.
(For reference only)
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