Parameters |
Height |
1.45mm |
Length |
2.9mm |
Width |
1.6mm |
Thickness |
1.2mm |
REACH SVHC |
No SVHC |
RoHS Status |
ROHS3 Compliant |
Lead Free |
Lead Free |
Factory Lead Time |
1 Week |
Lifecycle Status |
ACTIVE (Last Updated: 3 days ago) |
Contact Plating |
Tin |
Mount |
Surface Mount |
Mounting Type |
Surface Mount |
Package / Case |
SOT-23-6 |
Number of Pins |
6 |
Operating Temperature |
-40°C~85°C TJ |
Packaging |
Cut Tape (CT) |
JESD-609 Code |
e3 |
Pbfree Code |
yes |
Part Status |
Active |
Moisture Sensitivity Level (MSL) |
1 (Unlimited) |
Number of Terminations |
6 |
Termination |
SMD/SMT |
ECCN Code |
EAR99 |
Subcategory |
Other Analog ICs |
Max Power Dissipation |
600mW |
Technology |
CMOS |
Terminal Position |
DUAL |
Terminal Form |
GULL WING |
Peak Reflow Temperature (Cel) |
260 |
Supply Voltage |
5V |
Terminal Pitch |
0.95mm |
Frequency |
160kHz |
Base Part Number |
LM2664 |
Function |
Ratiometric |
Number of Outputs |
1 |
Output Voltage |
-5.5V |
Output Type |
Fixed |
Max Output Current |
40mA |
Input Voltage-Nom |
5V |
Max Supply Voltage |
5.5V |
Min Supply Voltage |
1.8V |
Analog IC - Other Type |
SWITCHED CAPACITOR CONVERTER |
Nominal Supply Current |
500μA |
Output Configuration |
Positive or Negative |
Output Power |
500mW |
Max Output Voltage |
-1.8V |
Voltage - Output (Min/Fixed) |
-Vin 2Vin |
Topology |
Charge Pump |
Logic Function |
Inverting |
Frequency - Switching |
80kHz |
Supply Current-Max (Isup) |
0.5mA |
Synchronous Rectifier |
No |
Min Output Voltage |
-5.5V |
Switcher Configuration |
DOUBLER INVERTER |
LM2664M6/NOPB Overview
Using the Cut Tape (CT) package, this voltage regulator optimizes the performance of the voltage regulator 12v. There are 6 terminations in this harley voltage regulator. As a matter of fact, the type of analog IC that this voltage regulator 12v is equipped with is called SWITCHED CAPACITOR CONVERTER. This harley voltage regulator is available in the SOT-23-6 package for the purpose of space saving. DC DC switching regulator is configured with 1 outputs. This DC DC switching regulator generates Fixed output on its output pins. There is a switching regulator that is compatible with the Surface Mount mounting. This voltage regulator 12v should operate at a temperature of -40°C~85°C TJ when operating. This DC-DC switching regulator has a switching frequency of 80kHz. The adjusting voltage regulator's output voltage (Min/Fixed) is -Vin 2Vin. Its 260 peak reflow temperature makes this regulator essentially indestructible. Voltage regulator is designed to provide a nominal input voltage of 5V to meet the operation requirements. DC DC switching regulator is part of the Other Analog ICs subcategory and can be found in the Other Analog ICs category. DC/DC regulators such as this one belong to the LM2664 family of products. A voltage of -5.5V volts can be produced by voltage regulator. The switching regulator operation of the system is controlled by 6 pins. For this switching regulator, it is recommended that the output voltage is at least -5.5V volts. In order to meet the requirements of the switching regulator operation, the maximum output current reaches 40mA A. As a result, it is able to provide adjusting voltage regulator a maximum output voltage of -1.8V. Adjusting voltage regulator reliable performance is ensured based on the minimal supply voltage of 1.8V V. DC DC switching regulator can be operated from a voltage of 5.5V as its maximum supply voltage. A frequency of 160kHz allows dc to dc voltage regulator to maintain high accuracy. There is a voltage regulator dc to dc built into this product that can run at a voltage of 5V volts.
LM2664M6/NOPB Features
1 outputs
Peak reflow temperature (Cel) of 260
6 pins
LM2664M6/NOPB Applications
There are a lot of Texas Instruments LM2664M6/NOPB Voltage Regulators applications.
- Fire elevators
- Program control systems
- Overvoltage protection circuits in TV sets
- Analog precision reference circuits
- Smart grid
- Mobile phones
- Drilling machines
- Direct power supply system
- Household control circuits
- Digital precision reference circuits