AD664
不推荐用于新设计单芯片12位四通道DAC
- 产品模型
- 25
产品详情
- 4个完整的电压输出DAC
- 日期寄存器回读特性
- “复位至零”无效使能功能
- 乘法操作
- 双缓冲锁存
- 表贴(LCC、PLCC和JLCC)、PDIP 和 SBDIP 封装
- 提供符合 MIL-STD-883 标准的版本
AD664是一款单片IC,集成了4个完整的12位、电压输出DAC。每个DAC均具有双缓冲输入锁存结构和数据回读功能。所有DAC读写操作均通过一个单端微处理器兼容型I/O端口完成。
该I/O端口可以处理4位、8位或12位并行字,允许与各种微处理器轻松接口。该器件具有一个复位至零控制引脚,无论输入锁存器中有何内容,用户都能利用该引脚将所有DAC输出同时复位至零。可以将任一个或全部DAC置于透明模式,这样输出就能够立即对输入数据做出反应。
AD664的模拟部分由4个DAC单元、4个输出放大器、1个控制放大器和多个开关组成。每个DAC单元均为反相R-2R类型。每个DAC的输出电流均被切换至片内应用电阻和输出放大器。各DAC单元的输出范围通过数字I/O端口编程,可以设置为单极性或双极性范围,增益为基准电压的1倍或2倍。所有DAC均采用一个外部基准电压工作。
AD664拥有如此全面的功能,是采用ADI公司BiMOS II工艺,并结合激光调整薄膜电阻与双层金属互连的结果。
参考资料
数据手册 2
技术文章 1
ADI 始终高度重视提供符合最高质量和可靠性水平的产品。我们通过将质量和可靠性检查纳入产品和工艺设计的各个范围以及制造过程来实现这一目标。出货产品的“零缺陷”始终是我们的目标。查看我们的质量和可靠性计划和认证以了解更多信息。
| 产品型号 | 引脚/封装图-中文版 | 文档 | CAD 符号,脚注和 3D模型 |
|---|---|---|---|
| 5962-8871901MXA | 28-Lead CerDIP (Side Brazed) | ||
| 5962-8871902MXA | 28-Lead CerDIP (Side Brazed) | ||
| 5962-8871903MYA | 44-Lead LCC | ||
| AD664AD-BIP | 28-Lead CerDIP (Side Brazed) | ||
| AD664AD-UNI | 28-Lead CerDIP (Side Brazed) | ||
| AD664AJ | 44-Lead JLCC | ||
| AD664BD-BIP | 28-Lead CerDIP (Side Brazed) | ||
| AD664BD-UNI | 28-Lead CerDIP (Side Brazed) | ||
| AD664BE | 44-Lead LCC | ||
| AD664BJ | 44-Lead JLCC | ||
| AD664CHIPS | CHIPS OR DIE | ||
| AD664JNZ-BIP | 28-Lead PDIP | ||
| AD664JNZ-UNI | 28-Lead PDIP | ||
| AD664JPZ | 44-Lead PLCC | ||
| AD664KNZ-BIP | 28-Lead PDIP | ||
| AD664KNZ-UNI | 28-Lead PDIP | ||
| AD664KPZ | 44-Lead PLCC | ||
| AD664SD-BIP | 28-Lead CerDIP (Side Brazed) | ||
| AD664SD-BIP/883B | 28-Lead CerDIP (Side Brazed) | ||
| AD664SD-UNI/883B | 28-Lead CerDIP (Side Brazed) | ||
| AD664TD-BIP | 28-Lead CerDIP (Side Brazed) | ||
| AD664TD-BIP/883B | 28-Lead CerDIP (Side Brazed) | ||
| AD664TD-UNI/883B | 28-Lead CerDIP (Side Brazed) | ||
| AD664TE/883B | 44-Lead LCC | ||
| AD664TJ/883B | 44-Lead JLCC |
| 产品型号 | 产品生命周期 | PCN |
|---|---|---|
|
4月 9, 2018 - 16_0026 Qualify TeamQuest Technology, Inc. for Burn-in and Life Test of Military and Aerospace Devices |
||
| 5962-8871901MXA | ||
| 5962-8871902MXA | ||
| 5962-8871903MYA | ||
| AD664SD-BIP/883B | ||
| AD664SD-UNI/883B | ||
| AD664TD-BIP/883B | ||
| AD664TD-UNI/883B | ||
| AD664TE/883B | ||
| AD664TJ/883B | ||
|
6月 6, 2012 - 12_0066 Add capacity for Burn In of Hermetic, 883 & QMLQ/Class B devices at TSSI Cavite |
||
| 5962-8871901MXA | ||
| 5962-8871902MXA | ||
| 5962-8871903MYA | ||
| AD664AJ | 量产 | |
| AD664SD-BIP/883B | ||
| AD664SD-UNI/883B | ||
| AD664TD-BIP/883B | ||
| AD664TD-UNI/883B | ||
| AD664TE/883B | ||
| AD664TJ/883B | ||
|
11月 9, 2011 - 11_0050 Transfer of ADI Hermetics Assembly location from Paranaque, Manila to General Trias, Cavite Philippines |
||
| 5962-8871901MXA | ||
| 5962-8871902MXA | ||
| 5962-8871903MYA | ||
| AD664AD-BIP | 量产 | |
| AD664AD-UNI | 量产 | |
| AD664AJ | 量产 | |
| AD664BD-BIP | 量产 | |
| AD664BD-UNI | 量产 | |
| AD664BE | ||
| AD664BJ | 量产 | |
| AD664SD-BIP | 量产 | |
| AD664SD-BIP/883B | ||
| AD664SD-UNI/883B | ||
| AD664TD-BIP | 量产 | |
| AD664TD-BIP/883B | ||
| AD664TD-UNI/883B | ||
| AD664TE/883B | ||
| AD664TJ/883B | ||
|
11月 9, 2011 - 11_0182 Test Site Transfer from Analog Devices Philippines Inc in Paranaque to Analog Devices General Trias in Cavite, Philippines |
||
| 5962-8871901MXA | ||
| 5962-8871902MXA | ||
| 5962-8871903MYA | ||
| AD664AD-BIP | 量产 | |
| AD664AD-UNI | 量产 | |
| AD664AJ | 量产 | |
| AD664BD-BIP | 量产 | |
| AD664BD-UNI | 量产 | |
| AD664BE | ||
| AD664BJ | 量产 | |
| AD664JNZ-BIP | 量产 | |
| AD664JNZ-UNI | 量产 | |
| AD664KNZ-BIP | 量产 | |
| AD664KNZ-UNI | 量产 | |
| AD664SD-BIP | 量产 | |
| AD664SD-BIP/883B | ||
| AD664SD-UNI/883B | ||
| AD664TD-BIP | 量产 | |
| AD664TD-BIP/883B | ||
| AD664TD-UNI/883B | ||
| AD664TE/883B | ||
| AD664TJ/883B | ||
|
3月 7, 2019 - 19_0046 Assembly Transfer of 18,20,24,28 Lead PDIP to Cirtek |
||
| AD664JNZ-BIP | 量产 | |
| AD664JNZ-UNI | 量产 | |
| AD664KNZ-BIP | 量产 | |
| AD664KNZ-UNI | 量产 | |
|
8月 19, 2009 - 07_0024 Package Material Changes for SOT23, MiniSO, MQFP, PDIP, PLCC, SOIC (narrow and wide body), SSOP, TSSOP and TSSOP exposed pad |
||
| AD664JNZ-BIP | 量产 | |
| AD664JNZ-UNI | 量产 | |
| AD664KNZ-BIP | 量产 | |
| AD664KNZ-UNI | 量产 | |
这是最新版本的数据手册
软件资源
找不到您所需的软件或驱动?
申请驱动/软件硬件生态系统
工具及仿真模型
精密DAC误差预算工具
精密DAC误差预算工具是一种Web应用程序,用于计算精密DAC信号链的直流精度。它可显示整个信号链中的静态误差状况,以快速评估设计利弊。可计算由基准电压源、运算放大器和精密DAC引起的直流误差。
打开工具最新评论
需要发起讨论吗? 没有关于 AD664的相关讨论?是否需要发起讨论?
在EngineerZone®上发起讨论