LTC2609
PRODUCTIONQuad 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
- Part Models
- 8
- 1ku List Price
- Starting From $11.26
Part Details
- Smallest Pin-Compatible Quad DACs:
- LTC2609: 16 Bits
- LTC2619: 14 Bits
- LTC2629: 12 Bits
- Guaranteed Monotonic Over Temperature
- Separate Reference Inputs
- 27 Selectable Addresses
- 400kHz I2C™ Interface
- Wide 2.7V to 5.5V Supply Range
- Low Power Operation: 250μA per DAC at 3V
- Individual Channel Power Down to 1μA (Max)
- High Rail-to-Rail Output Drive (±15mA, Min)
- Ultralow Crosstalk Between DACs (5μV)
- LTC2609/LTC2619/LTC2629: Power-On Reset to Zero-Scale
- LTC2609-1/LTC2619-1/LTC2629-1: Power-On Reset to Mid-Scale
- Tiny 16-Lead Narrow SSOP Package
The LTC2609/LTC2619/LTC2629 are quad 16-, 14- and 12- bit, 2.7V to 5.5V rail-to-rail voltage output DACs in a 16‑lead SSOP package. 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 and load regulation in single-supply, voltage- output DACs.
The parts use a 2-wire, I2C compatible serial interface. The LTC2609/LTC2619/LTC2629 operate in both the standard mode (clock rate of 100kHz) and the fast mode (clock rate of 400kHz).
The LTC2609/LTC2619/LTC2629 incorporate a power-on reset circuit. During power-up, the voltage outputs rise less than 10mV above zero-scale; after power-up, they stay at zero-scale until a valid write and update take place. The power-on reset circuit resets the LTC2609-1/LTC2619‑1/ LTC2629-1 to mid-scale. The voltage outputs stay at midscale until a valid write and update take place.
Applications
- Mobile Communications
- Process Control and Industrial Automation
- Automatic Test Equipment and Instrumentation
Documentation
Data Sheet 1
Reliability Data 1
User Guide 1
Product Selector Card 3
ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal. View our quality and reliability program and certifications for more information.
| Part Model | Pin/Package Drawing | Documentation | CAD Symbols, Footprints, and 3D Models |
|---|---|---|---|
| LTC2609CGN#PBF | 16-Lead SSOP (Narrow 0.15 Inch) | ||
| LTC2609CGN#TRPBF | 16-Lead SSOP (Narrow 0.15 Inch) | ||
| LTC2609CGN-1#PBF | 16-Lead SSOP (Narrow 0.15 Inch) | ||
| LTC2609CGN-1#TRPBF | 16-Lead SSOP (Narrow 0.15 Inch) | ||
| LTC2609IGN#PBF | 16-Lead SSOP (Narrow 0.15 Inch) | ||
| LTC2609IGN#TRPBF | 16-Lead SSOP (Narrow 0.15 Inch) | ||
| LTC2609IGN-1#PBF | 16-Lead SSOP (Narrow 0.15 Inch) | ||
| LTC2609IGN-1#TRPBF | 16-Lead SSOP (Narrow 0.15 Inch) |
| Part Models | Product Lifecycle | PCN |
|---|---|---|
|
Oct 3, 2024 - 24_0235 (QSOP/SSOP PKG) Migrating Bottom Trace Code Marking to Top Side Laser Marking |
||
| LTC2609CGN#PBF | PRODUCTION | |
| LTC2609CGN#TRPBF | PRODUCTION | |
| LTC2609CGN-1#PBF | PRODUCTION | |
| LTC2609CGN-1#TRPBF | PRODUCTION | |
| LTC2609IGN#PBF | PRODUCTION | |
| LTC2609IGN#TRPBF | PRODUCTION | |
| LTC2609IGN-1#PBF | PRODUCTION | |
| LTC2609IGN-1#TRPBF | PRODUCTION | |
|
Oct 11, 2022 - 22_0235 Epoxy Change from Henkel 8290 to 8290A for GN Package |
||
| LTC2609CGN#PBF | PRODUCTION | |
| LTC2609CGN#TRPBF | PRODUCTION | |
| LTC2609CGN-1#PBF | PRODUCTION | |
| LTC2609CGN-1#TRPBF | PRODUCTION | |
| LTC2609IGN#PBF | PRODUCTION | |
| LTC2609IGN#TRPBF | PRODUCTION | |
| LTC2609IGN-1#PBF | PRODUCTION | |
| LTC2609IGN-1#TRPBF | PRODUCTION | |
|
Apr 6, 2022 - 22_0066 Laser Top Mark for 16QSOP Assembled in ADPG [PNG] |
||
| LTC2609CGN#PBF | PRODUCTION | |
| LTC2609CGN#TRPBF | PRODUCTION | |
| LTC2609CGN-1#PBF | PRODUCTION | |
| LTC2609CGN-1#TRPBF | PRODUCTION | |
| LTC2609IGN#PBF | PRODUCTION | |
| LTC2609IGN#TRPBF | PRODUCTION | |
| LTC2609IGN-1#PBF | PRODUCTION | |
| LTC2609IGN-1#TRPBF | PRODUCTION | |
This is the most up-to-date revision of the Data Sheet.
Hardware Ecosystem
| Parts | Product Life Cycle | Description |
|---|---|---|
| I²C Isolators 1 | ||
| LTM2883 | PRODUCTION | SPI/Digital or I2C μModule Isolator with Adjustable ±12.5V and 5V Regulated Power |
| Multichannel Voltage Output D/A Converters 1 | ||
| LTC2655 | PRODUCTION | Quad I2C 16-/12-Bit Rail-to-Rail DACs with 10ppm/°C Max Reference |
| Serial Bus Buffers, Extenders, and Accelerators 1 | ||
| LTC4316 | PRODUCTION | Single I2C/SMBus Address Translator |
Tools & Simulations
Precision DAC Error Budget Tool
The Precision DAC Error Budget Tool is a web application that calculates the DC Accuracy of precision DAC signal chains. It shows how the static errors accumulate throughout your signal chain to quickly evaluate the design tradeoffs. Calculations include the DC errors introduced by Voltage References, Operation Amplifiers and Precision DACs.
Open ToolLinduino 3
Linduino is Analog Devices’ Arduino compatible system for developing and distributing firmware libraries and example code for our integrated circuits. Each Linduino-supported product includes an example main program, defined in the LTSketchbook/Part Number folder and driver code, defined in the LTSketchbook/libraries folder.
Linduino code repository on GitHub and instructions on how to use the code.
Evaluation Kits
LTC2609 Quad, 16-bit VOUT DAC (Requires DC590)
Resources
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