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SI5335D-B08419-GMR
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SI5335D-B08419-GMR

Overview

  • Category: Integrated Circuit
  • Use: Clock Generator and Multiplier
  • Characteristics: High-performance, low-jitter, programmable clock generator
  • Package: 84-pin BGA (Ball Grid Array)
  • Essence: Provides multiple clock outputs with precise frequency and phase control
  • Packaging/Quantity: Tape and Reel, 250 units per reel

Specifications

  • Input Voltage Range: 2.375V to 3.63V
  • Output Frequency Range: 1kHz to 945MHz
  • Output Format: LVCMOS, LVDS, HCSL, CML
  • Programmable Features: Frequency, Phase, Output Format, Spread Spectrum Modulation
  • Operating Temperature Range: -40°C to +85°C

Detailed Pin Configuration

The SI5335D-B08419-GMR has a total of 84 pins. Here is a detailed pin configuration:

  1. VDDO_0
  2. VDDO_1
  3. VDDO_2
  4. VDDO_3
  5. VDDO_4
  6. VDDO_5
  7. VDDO_6
  8. VDDO_7
  9. VDDO_8
  10. VDDO_9
  11. VDDO_10
  12. VDDO_11
  13. VDDO_12
  14. VDDO_13
  15. VDDO_14
  16. VDDO_15
  17. VDDO_16
  18. VDDO_17
  19. VDDO_18
  20. VDDO_19
  21. VDDO_20
  22. VDDO_21
  23. VDDO_22
  24. VDDO_23
  25. VDDO_24
  26. VDDO_25
  27. VDDO_26
  28. VDDO_27
  29. VDDO_28
  30. VDDO_29
  31. VDDO_30
  32. VDDO_31
  33. VDDO_32
  34. VDDO_33
  35. VDDO_34
  36. VDDO_35
  37. VDDO_36
  38. VDDO_37
  39. VDDO_38
  40. VDDO_39
  41. VDDO_40
  42. VDDO_41
  43. VDDO_42
  44. VDDO_43
  45. VDDO_44
  46. VDDO_45
  47. VDDO_46
  48. VDDO_47
  49. VDDO_48
  50. VDDO_49
  51. VDDO_50
  52. VDDO_51
  53. VDDO_52
  54. VDDO_53
  55. VDDO_54
  56. VDDO_55
  57. VDDO_56
  58. VDDO_57
  59. VDDO_58
  60. VDDO_59
  61. VDDO_60
  62. VDDO_61
  63. VDDO_62
  64. VDDO_63
  65. VDDO_64
  66. VDDO_65
  67. VDDO_66
  68. VDDO_67
  69. VDDO_68
  70. VDDO_69
  71. VDDO_70
  72. VDDO_71
  73. VDDO_72
  74. VDDO_73
  75. VDDO_74
  76. VDDO_75
  77. VDDO_76
  78. VDDO_77
  79. VDDO_78
  80. VDDO_79
  81. VDDO_80
  82. VDDO_81
  83. VDDO_82
  84. VDDO_83

Functional Features

  • High-frequency accuracy and stability
  • Low phase noise and jitter
  • Flexible frequency and phase programming
  • Multiple clock outputs with individual control
  • Spread spectrum modulation for EMI reduction

Advantages and Disadvantages

Advantages: - Precise frequency and phase control - Wide range of output formats - Programmable features for customization - High-performance and low-jitter operation

Disadvantages: - Complex pin configuration - Requires careful programming for optimal performance - Relatively high cost compared to simpler clock generators

Working Principles

The SI5335D-B08419-GMR is based on a

Перечислите 10 распространенных вопросов и ответов, связанных с применением SI5335D-B08419-GMR в технических решениях.

  1. Question: What is the SI5335D-B08419-GMR?
    Answer: The SI5335D-B08419-GMR is a high-performance clock generator and jitter attenuator IC.

  2. Question: What are the key features of the SI5335D-B08419-GMR?
    Answer: The key features include multiple outputs, low phase noise, programmable frequency synthesis, and integrated EEPROM for configuration storage.

  3. Question: What is the operating voltage range of the SI5335D-B08419-GMR?
    Answer: The operating voltage range is typically between 1.8V and 3.3V.

  4. Question: How many outputs does the SI5335D-B08419-GMR have?
    Answer: The SI5335D-B08419-GMR has a total of 10 differential clock outputs.

  5. Question: Can the output frequencies be programmed on the SI5335D-B08419-GMR?
    Answer: Yes, the output frequencies can be programmed using the integrated I2C interface.

  6. Question: What is the maximum output frequency supported by the SI5335D-B08419-GMR?
    Answer: The SI5335D-B08419-GMR supports output frequencies up to 350 MHz.

  7. Question: Does the SI5335D-B08419-GMR support spread spectrum clocking (SSC)?
    Answer: Yes, the SI5335D-B08419-GMR supports SSC for reducing electromagnetic interference (EMI).

  8. Question: Can the SI5335D-B08419-GMR generate different types of clock signals?
    Answer: Yes, the SI5335D-B08419-GMR can generate various types of clock signals, including LVPECL, LVDS, HCSL, and CMOS.

  9. Question: Is there any built-in redundancy or failover mechanism in the SI5335D-B08419-GMR?
    Answer: No, the SI5335D-B08419-GMR does not have built-in redundancy or failover mechanisms. It is primarily designed for clock generation and jitter attenuation.

  10. Question: What are some typical applications of the SI5335D-B08419-GMR?
    Answer: The SI5335D-B08419-GMR is commonly used in networking equipment, telecommunications systems, data centers, and other high-speed digital applications requiring precise clock synchronization.