Part No.: | LTC2610 |
Page: | 20 Pages |
Size: | 330 KB |
Manufacturer: | Linear Technology |
Logo: | |
Views: | 2 |
Update Time: | 2024-04-25 17:23:07 |
DataSheet: | Download |
Part No. | Packing | SPQ | Marking | MSL | Pins | Temp Range | Package Description | Buy |
LTC2610CUFD#PBF | Tube | 73 | 2610 | 1 | 20 | 0°C ~70°C | 20-Lead (4mm × 5mm) Plastic DFN | |
LTC2610CUFD#TRPBF | Reel | 2500 | 2610 | 1 | 20 | 0°C ~70°C | 20-Lead (4mm × 5mm) Plastic DFN | |
LTC2610CUFD#TRMPBF | Reel | 500 | 2610 | 1 | 20 | 0°C ~70°C | 20-Lead (4mm × 5mm) Plastic DFN | |
LTC2610IUFD#PBF | Tube | 73 | 2610 | 1 | 20 | -40°C ~85°C | 20-Lead (4mm × 5mm) Plastic DFN | |
LTC2610IUFD#TRPBF | Reel | 2500 | 2610 | 1 | 20 | -40°C ~85°C | 20-Lead (4mm × 5mm) Plastic DFN | |
LTC2610IUFD#TRMPBF | Reel | 500 | 2610 | 1 | 20 | -40°C ~85°C | 20-Lead (4mm × 5mm) Plastic DFN | |
LTC2610CGN#PBF | Tube | 100 | 2610 | 1 | 16 | 0°C ~70°C | 16-Lead Plastic SSOP | |
LTC2610CGN#TRPBF | Reel | 2500 | 2610 | 1 | 16 | 0°C ~70°C | 16-Lead Plastic SSOP | |
LTC2610CGN#TRMPBF | Reel | 500 | 2610 | 1 | 16 | 0°C ~70°C | 16-Lead Plastic SSOP | |
LTC2610IGN#PBF | Tube | 100 | 2610I | 1 | 16 | -40°C ~85°C | 16-Lead Plastic SSOP | |
LTC2610IGN#TRPBF | Reel | 2500 | 2610I | 1 | 16 | -40°C ~85°C | 16-Lead Plastic SSOP | |
LTC2610IGN#TRMPBF | Reel | 500 | 2610I | 1 | 16 | -40°C ~85°C | 16-Lead Plastic SSOP |
The LTC2610 are octal 14-bit, 2.5V-to-5.5V rail-to-rail voltage-output DACs in 16-lead narrow SSOP and 20-lead 4mm × 5mm QFN packages. They have built-in high performance output buffers and are guaranteed monotonic.
These parts establish new board-density benchmarks for 16- and 14-bit DACs and advance performance standards for output drive, crosstalk and load regulation in single-supply, voltage-output multiples.
The parts use a simple SPI/MICROWIRE compatible 3-wire serial interface which can be operated at clock rates up to 50MHz. Daisy-chain capability and a hardware CLR function are included.
The LTC2610 incorporate a power-on reset circuit. During power-up, the voltage outputs rise less than 10mV above zero-scale; and after power-up, they stay at zero-scale until a valid write and update take place.