JAJS398F January 2009 – April 2018 DAC7568 , DAC8168 , DAC8568
PRODUCTION DATA.
- 1 特長
- 2 アプリケーション
- 3 概要
- 4 改訂履歴
- 5 概要(続き)
- 6 Device Comparison Table
- 7 Pin Configuration and Functions
- 8 Specifications
-
9 Detailed Description
- 9.1 Functional Block Diagram
- 9.2
Feature Description
- 9.2.1 Digital-to-Analog Converter (DAC)
- 9.2.2 Resistor String
- 9.2.3 Output Amplifier
- 9.2.4 Internal Reference
- 9.2.5 Serial Interface
- 9.2.6 Input Shift Register
- 9.2.7 SYNC Interrupt
- 9.2.8 Power-on Reset to Zero Scale or Midscale
- 9.2.9 Clear Code Register and CLR Pin
- 9.2.10 Software Reset Function
- 9.2.11
Operating Examples: DAC7568/DAC8168/DAC8568
- Table 4. 1st: Write to Data Buffer A:
- Table 5. 2nd: Write to Data Buffer B:
- Table 6. 3rd: Write to Data Buffer G:
- Table 7. 4th: Write to Data Buffer H and Simultaneously Update all DACs:
- Table 8. 1st: Write to Data Buffer C and Load DAC C: DAC C Output Settles to Specified Value Upon Completion:
- Table 9. 2nd: Write to Data Buffer D and Load DAC D: DAC D Output Settles to Specified Value Upon Completion:
- Table 10. 3rd: Write to Data Buffer E and Load DAC E: DAC E Output Settles to Specified Value Upon Completion:
- Table 11. 4th: Write to Data Buffer F and Load DAC F: DAC F Output Settles to Specified Value Upon Completion:
- Table 12. 1st: Write Power-Down Command to DAC Channel A and DAC Channel B: DAC A and DAC B to 1kΩ.
- Table 13. 2nd: Write Power-Down Command to DAC Channel H: DAC H to 1kΩ.
- Table 14. 3rd: Write Power-Down Command to DAC Channel C and DAC Channel D: DAC C and DAC D to 100kΩ.
- Table 15. 4th: Write Power-Down Command to DAC Channel F: DAC F to 100kΩ.
- Table 16. 1st: Write Sequence for Enabling the DAC7568, DAC8168, and DAC8568 Internal Reference All the Time:
- Table 17. 2nd: Write Sequence to Power-Down All DACs to High-Impedance:
- Table 18. 1st: Write Sequence for Disabling the DAC7568, DAC8168, and DAC8568 Internal Reference All the Time (after this sequence, these devices require an external reference source to function):
- Table 19. 2nd: Write Sequence to Write Specified Data to All DACs:
- 9.3
Device Functional Modes
- 9.3.1
Enable/Disable Internal Reference
- 9.3.1.1 Static Mode
- 9.3.1.2
Flexible Mode
- Table 22. Write Sequence for Enabling Internal Reference (Flexible Mode) (Internal Reference Powered On—09080000h)
- Table 23. Write Sequence for Enabling Internal Reference (Flexible Mode) (Internal Reference Always Powered On—090A0000h)
- Table 24. Write Sequence for Disabling Internal Reference (Flexible Mode) (Internal Reference Always Powered Down—090C0000h)
- Table 25. Write Sequence for Switching from Flexible Mode to Static Mode for Internal Reference (Internal Reference Always Powered Down—09000000h)
- 9.3.2 LDAC Functionality
- 9.3.3 Power-Down Modes
- 9.3.1
Enable/Disable Internal Reference
-
10Application and Implementation
- 10.1 Application Information
- 10.2
Typical Applications - Microprocessor Interfacing
- 10.2.1 DAC7568/DAC8168/DAC8568 to an 8051 Interface
- 10.2.2 DAC7568/DAC8168/DAC8568 to Microwire Interface
- 10.2.3 DAC7568/DAC8168/DAC8568 to 68HC11 Interface
- 11Layout
-
12デバイスおよびドキュメントのサポート
- 12.1
デバイス・サポート
- 12.1.1
デバイスの項目表記
- 12.1.1.1
静的特性
- 12.1.1.1.1 分解能
- 12.1.1.1.2 最下位ビット(LSB)
- 12.1.1.1.3 最上位ビット(MSB)
- 12.1.1.1.4 相対精度または積分非直線性(INL)
- 12.1.1.1.5 微分非直線性(DNL)
- 12.1.1.1.6 フルスケール誤差
- 12.1.1.1.7 オフセット誤差
- 12.1.1.1.8 ゼロ・コード誤差
- 12.1.1.1.9 ゲイン誤差
- 12.1.1.1.10 フルスケール誤差ドリフト
- 12.1.1.1.11 オフセット誤差ドリフト
- 12.1.1.1.12 ゼロ・コード誤差ドリフト
- 12.1.1.1.13 ゲイン温度係数
- 12.1.1.1.14 電源除去率(PSRR)
- 12.1.1.1.15 単調性
- 12.1.1.2
動的特性
- 12.1.1.2.1 スルー・レート
- 12.1.1.2.2 出力電圧のセトリング時間
- 12.1.1.2.3 コード変化/デジタル-アナログ・グリッチ・エネルギー
- 12.1.1.2.4 デジタル・フィードスルー
- 12.1.1.2.5 チャネル間DCクロストーク
- 12.1.1.2.6 チャネル間ACクロストーク
- 12.1.1.2.7 信号対雑音比(SNR)
- 12.1.1.2.8 全高調波歪み(THD)
- 12.1.1.2.9 スプリアスフリー・ダイナミック・レンジ(SFDR)
- 12.1.1.2.10 信号対雑音比+歪み(SINAD)
- 12.1.1.2.11 DAC出力ノイズ密度
- 12.1.1.2.12 DAC出力ノイズ
- 12.1.1.2.13 フルスケール範囲(FSR)
- 12.1.1.1
静的特性
- 12.1.1
デバイスの項目表記
- 12.2 関連リンク
- 12.3 ドキュメントの更新通知を受け取る方法
- 12.4 コミュニティ・リソース
- 12.5 商標
- 12.6 静電気放電に関する注意事項
- 12.7 Glossary
- 12.1
デバイス・サポート
- 13メカニカル、パッケージ、および注文情報
8.5 Typical Characteristics: DAC at AVDD = 5.5 V
Channel-specific information provided as examples. At TA = +25°C, external reference used, DAC output not loaded, and all DAC codes in straight binary data format, unless otherwise noted.
Figure 14. Linearity Error and Differential Linearity Error vs Digital Input Code (–40°C) 
Figure 16. Linearity Error and Differential Linearity Error vs Digital Input Code (–40°C) 
Figure 18. Linearity Error and Differential Linearity Error vs Digital Input Code (+25°C) 
Figure 20. Linearity Error and Differential Linearity Error vs Digital Input Code (+25°C) 
Figure 22. Linearity Error and Differential Linearity Error vs Digital Input Code (+125°C) 
Figure 24. Linearity Error and Differential Linearity Error vs Digital Input Code (+125°C) 
Figure 26. Offset Error vs Temperature 
Figure 28. Full-Scale Error vs Temperature 
Figure 30. Gain Error vs Temperature 
Figure 32. Source Current at Positive Rail (Grades C and D) 
Figure 34. Source Current at Positive Rail (Grades C and D) 
Figure 36. Source Current at Positive Rail (Grades C and D) 
Figure 38. Power-Supply Current vs Digital Input Code 
Figure 40. Power-Supply Current vs Power-Supply Voltage 
Figure 42. Power-Down Current vs Power-Supply Voltage 
Figure 15. Linearity Error and Differential Linearity Error vs Digital Input Code (–40°C) 
Figure 17. Linearity Error and Differential Linearity Error vs Digital Input Code (–40°C) 
Figure 19. Linearity Error and Differential Linearity Error vs Digital Input Code (+25°C) 
Figure 21. Linearity Error and Differential Linearity Error vs Digital Input Code (+25°C) 
Figure 23. Linearity Error and Differential Linearity Error vs Digital Input Code (+125°C) 
Figure 25. Linearity Error and Differential Linearity Error vs Digital Input Code (+125°C) 
Figure 27. Power-Supply Current vs Temperature 
Figure 29. Power-Supply Current vs Temperature 
Figure 31. Power-Down Current vs Temperature 
Figure 33. Sink Current at Negative Rail (All Grades) 
Figure 35. Sink Current at Negative Rail (All Grades) 
Figure 37. Sink Current at Negative Rail (All Grades) 
Figure 39. Power-Supply Current vs Digital Input Code 
Figure 41. Power-Supply Current vs Power-Supply Voltage 
Figure 43. Power-Supply Current vs Logic Input Voltage 
Figure 45. Power-Supply Current Histogram 
Figure 47. Signal-to-Noise Ratio vs Output Frequency 
Figure 44. Power-Supply Current vs Logic Input Voltage 
Figure 46. Power-Supply Current Histogram 
Figure 48. Power Spectral Density 
Figure 50. Third Harmonic Distortion vs Output Frequency 
Figure 52. Full-Scale Settling Time: 5-V Rising Edge 
Figure 54. Half-Scale Settling Time: 5-V Rising Edge 
Figure 56. Clock Feedthrough 2 Mhz, Midscale 
Figure 58. Power-On Glitch Reset To Midscale 
Figure 60. Glitch Energy: 5 V, 1-LSB Step, Rising Edge 
Figure 62. Glitch Energy: 5 V, 4-LSB Step, Rising Edge 
Figure 64. Glitch Energy: 5 V, 16-LSB Step, Rising Edge 
| See the Application Information section of this data sheet for more details. |
Figure 49. Second Harmonic Distortion vs Output Frequency 
Figure 51. Total Harmonic Distortion vs Output Frequency 
Figure 53. Full-Scale Settling Time: 5-V Falling Edge 
Figure 55. Half-Scale Settling Time: 5-V Falling Edge 
Figure 57. Power-On Glitch Reset to Zero Scale 
Figure 59. Power-Off Glitch 
Figure 61. Glitch Energy: 5 V, 1-LSB Step, Falling Edge 
Figure 63. Glitch Energy: 5 V, 4-LSB Step, Falling Edge 
Figure 65. Glitch Energy: 5 V, 16-LSB Step, Falling Edge 