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探討Vectrons VT-803溫度補償晶體振蕩器的完美解決方案
Vectrons VT-803溫度補償晶體振蕩器(TCXO)是一種石英穩定、削波正弦波或CMOS輸出、模擬溫度補償振蕩器,采用密封的5x3.2陶瓷封裝,采用2.8、3.0、3.3或5.0伏電源供電。
F61200046
12MHz
±30ppm
2-SMD, No Lead
F61200046
12MHz
±30ppm
2-SMD, No Lead
GB0400039
4MHz
±30ppm
HC49/US
GB0400005
4MHz
±30ppm
HC49/US
GB1200036
12MHz
±30ppm
HC49/US
GB1100021
11.0592MHz
±30ppm
HC49/US
GB1600032
16MHz
±30ppm
HC49/US
GB0800004
8MHz
±30ppm
HC49/US
GC1600058
16MHz
±30ppm
HC49/US
GC1600058
16MHz
±30ppm
HC49/US
GC1600058
16MHz
±30ppm
HC49/US
GC2500162
25MHz
±30ppm
HC49/US
GC2500162
25MHz
±30ppm
HC49/US
GC2500162
25MHz
±30ppm
HC49/US
GC0800002
8MHz
±30ppm
HC49/US
GC0800002
8MHz
±30ppm
HC49/US
GC0800002
8MHz
±30ppm
HC49/US
F80800016
8MHz
±50ppm
2-SMD, No Lead
F80800016
8MHz
±50ppm
2-SMD, No Lead
F80800016
8MHz
±50ppm
2-SMD, No Lead
GC1600048
16MHz
±30ppm
HC49/US
GC1600048
16MHz
±30ppm
HC49/US
GC1600048
16MHz
±30ppm
HC49/US
GC2500100
25MHz
±50ppm
HC49/US
GC2500100
25MHz
±50ppm
HC49/US
GC2500100
25MHz
±50ppm
HC49/US
GC0400058
4MHz
±30ppm
HC49/US
GC0400058
4MHz
±30ppm
HC49/US
GC0400058
4MHz
±30ppm
HC49/US
GC0800053
8MHz
±50ppm
HC49/US
當需要標準無法達到的溫度穩定性水平時,TCXO是必需的XO(晶體振蕩器)或VCXO(壓控晶體振蕩器)。
GC0800053
8MHz
±50ppm
HC49/US
GC0800053
8MHz
±50ppm
HC49/US
GC2500081
25MHz
±30ppm
HC49/US
GC2500081
25MHz
±30ppm
HC49/US
GC2500081
25MHz
±30ppm
HC49/US
GC2500164
25MHz
±10ppm
HC49/US
GC2500164
25MHz
±10ppm
HC49/US
GC2500164
25MHz
±10ppm
HC49/US
GC1200050
12MHz
±50ppm
HC49/US
GC1200050
12MHz
±50ppm
HC49/US
GC1200050
12MHz
±50ppm
HC49/US
FY2500115
25MHz
±10ppm
4-SMD, No Lead
FY2500115
25MHz
±10ppm
4-SMD, No Lead
FY2500115
25MHz
±10ppm
4-SMD, No Lead
F90800021
8MHz
±30ppm
2-SMD, No Lead
F90800021
8MHz
±30ppm
2-SMD, No Lead
F90800021
8MHz
±30ppm
2-SMD, No Lead
FL2400135Z
24MHz
±30ppm
4-SMD, No Lead
FL2400135Z
24MHz
±30ppm
4-SMD, No Lead
FL2400135Z
24MHz
±30ppm
4-SMD, No Lead
FL4800063Z
48MHz
±15ppm
4-SMD, No Lead
FL4800063Z
48MHz
±15ppm
4-SMD, No Lead
FL4800063Z
48MHz
±15ppm
4-SMD, No Lead
FL4000205Z
40MHz
±10ppm
4-SMD, No Lead
FL4000205Z
40MHz
±10ppm
4-SMD, No Lead
FL4000205Z
40MHz
±10ppm
4-SMD, No Lead
FL2000132Z
20MHz
±30ppm
4-SMD, No Lead
FL2000132Z
20MHz
±30ppm
4-SMD, No Lead
FL2000132Z
20MHz
±30ppm
4-SMD, No Lead
FL2500279Z
25MHz
±30ppm
4-SMD, No Lead
FL2500279Z
25MHz
±30ppm
4-SMD, No Lead
FL2500279Z
25MHz
±30ppm
4-SMD, No Lead
FL2500283Z
25MHz
±30ppm
4-SMD, No Lead
FL2500283Z
25MHz
±30ppm
4-SMD, No Lead
FL2500283Z
25MHz
±30ppm
4-SMD, No Lead
溫度穩定性是衡量振蕩器頻率隨溫度變化的程度,有兩種定義方式。一種常見的方法是使用“正/負”規范(例如:±0.28ppm與工作溫度范圍,以25°C為參考——溫度范圍通常為-40至85°C或-20至70°C)。規范告訴我們,如果我們將25°C的頻率作為標稱值,那么器件頻率將在該標稱頻率之上或之下的偏差不超過0.28ppm。這與指定溫度穩定性的第二種方法不同,第二種方法是使用峰峰值或僅使用無參考點的正/負值。在第二種情況下,我們不能說我們知道頻率會在標稱之上或之下變化多遠——只是我們知道總范圍將是多少。通常使用定義參考點的正負值指定設備。
F91200084
12MHz
±30ppm
2-SMD, No Lead
F91200084
12MHz
±30ppm
2-SMD, No Lead
F91200084
12MHz
±30ppm
2-SMD, No Lead
FL2500137Z
25MHz
±30ppm
4-SMD, No Lead
FL2500137Z
25MHz
±30ppm
4-SMD, No Lead
FL2500137Z
25MHz
±30ppm
4-SMD, No Lead
FL3200038Z
32MHz
±10ppm
4-SMD, No Lead
FL3200038Z
32MHz
±10ppm
4-SMD, No Lead
FL3200038Z
32MHz
±10ppm
4-SMD, No Lead
FY1000020
10MHz
±10ppm
4-SMD, No Lead
FY1000020
10MHz
±10ppm
4-SMD, No Lead
FY1000020
10MHz
±10ppm
4-SMD, No Lead
FY1200011
12MHz
±30ppm
4-SMD, No Lead
FY1200011
12MHz
±30ppm
4-SMD, No Lead
FY1200011
12MHz
±30ppm
4-SMD, No Lead
FY0800027
8MHz
±20ppm
4-SMD, No Lead
FY0800027
8MHz
±20ppm
4-SMD, No Lead
FY0800027
8MHz
±20ppm
4-SMD, No Lead
F62500047
25MHz
±30ppm
2-SMD, No Lead
F62500047
25MHz
±30ppm
2-SMD, No Lead
F62500047
25MHz
±30ppm
2-SMD, No Lead
F60800010
8MHz
±30ppm
2-SMD, No Lead
F60800010
8MHz
±30ppm
2-SMD, No Lead
F60800010
8MHz
±30ppm
2-SMD, No Lead
FL5000063Z
50MHz
±30ppm
4-SMD, No Lead
FL5000063Z
50MHz
±30ppm
4-SMD, No Lead
FL5000063Z
50MHz
±30ppm
4-SMD, No Lead
F62400017
24MHz
±30ppm
2-SMD, No Lead
F62400017
24MHz
±30ppm
2-SMD, No Lead
F62400017
24MHz
±30ppm
2-SMD, No Lead
F61600023
16MHz
±30ppm
2-SMD, No Lead
F61600023
16MHz
±30ppm
2-SMD, No Lead
F61600023
16MHz
±30ppm
2-SMD, No Lead
F62700016
27MHz
±50ppm
2-SMD, No Lead
F62700016
27MHz
±50ppm
2-SMD, No Lead
F62700016
27MHz
±50ppm
2-SMD, No Lead
FP0800018
8MHz
±50ppm
4-SMD, No Lead
FP0800018
8MHz
±50ppm
4-SMD, No Lead
FP0800018
8MHz
±50ppm
4-SMD, No Lead
FX0800015
8MHz
±20ppm
4-SMD, No Lead
FX0800015
8MHz
±20ppm
4-SMD, No Lead
FX0800015
8MHz
±20ppm
4-SMD, No Lead
FH1600015
16MHz
±10ppm
4-SMD, No Lead
FH1600015
16MHz
±10ppm
4-SMD, No Lead
FH1600015
16MHz
±10ppm
4-SMD, No Lead
范圍從標準VCXO的50ppm到高性能OCXO的0.2ppb。軸被顛倒,使得圖在增加溫度穩定性的方向上增長。TCXO穩定性范圍涵蓋了VCXO和OCXO之間的曲線中間(并且在某些情況下與某些OCXO性能重疊)。各種振蕩器類型TCXO的溫度穩定性范圍對工程師很有用,因為它們可以在任何地方獲得比標準VCXO高10倍到40倍的溫度穩定性,同時具有相同的功耗和電路板上的占位面積。TCXO彌合了標準XO或VCXO與OCXO之間的差距,后者更昂貴且需要更多功率才能運行。技術的推動力是降低功耗,當然還有降低成本,因此TCXO為功率和成本敏感的應用提供了良好的中檔解決方案。
FH4800020Z
48MHz
±10ppm
4-SMD, No Lead
FH4800020Z
48MHz
±10ppm
4-SMD, No Lead
FH4800020Z
48MHz
±10ppm
4-SMD, No Lead
FH2700019Z
27MHz
±10ppm
4-SMD, No Lead
FH2700019Z
27MHz
±10ppm
4-SMD, No Lead
FH2700019Z
27MHz
±10ppm
4-SMD, No Lead
FH4000074Z
40MHz
±10ppm
4-SMD, No Lead
FH4000074Z
40MHz
±10ppm
4-SMD, No Lead
FH4000074Z
40MHz
±10ppm
4-SMD, No Lead
FH1220003Z
12.2MHz
±20ppm
4-SMD, No Lead
FH1220003Z
12.288MHz
±20ppm
4-SMD, No Lead
FH1220003Z
12.288MHz
±20ppm
4-SMD, No Lead
FW3840001
38.4MHz
±10ppm
4-SMD, No Lead
FW3840001
38.4MHz
±10ppm
4-SMD, No Lead
FW3840001
38.4MHz
±10ppm
4-SMD, No Lead
FW2500016Z
25MHz
±40ppm
4-SMD, No Lead
FW2500016Z
25MHz
±40ppm
4-SMD, No Lead
FW2500016Z
25MHz
±40ppm
4-SMD, No Lead
FP0730017Z
7.3728MHz
±30ppm
4-SMD, No Lead
FP0730017Z
7.3728MHz
±30ppm
4-SMD, No Lead
FP0730017Z
7.3728MHz
±30ppm
4-SMD, No Lead
G53270004
32.768kHz
-
4-SMD, Flat Leads
G53270004
32.768kHz
-
4-SMD, Flat Leads
G53270004
32.768kHz
-
4-SMD, Flat Leads
FW400WFQA1
40MHz
±10ppm
4-SMD, No Lead
FW400WFQA1
40MHz
±10ppm
4-SMD, No Lead
FW400WFQA1
40MHz
±10ppm
4-SMD, No Lead
US3840005Z
38.4MHz
±10ppm
4-SMD, No Lead
US3840005Z
38.4MHz
±10ppm
4-SMD, No Lead
US3840005Z
38.4MHz
±10ppm
4-SMD, No Lead
SRX6559-E
4MHz
±50ppm
HC49/US
FL2400135Z
24MHz
±30ppm
4-SMD, No Lead
FW400WFMR1
40MHz
±10ppm
4-SMD, No Lead
49SMLB04.0000-20GHE-E(T)
.
.
.
通常需要TCXO級別的溫度穩定性(從5ppm到50ppb),因為振蕩器將自行運行,無論是在沒有外部頻率參考的系統中的自由運行模式下,還是作為固定頻率參考一個合成器,其TCXO在開環中運行以驅動DDS(直接數字合成),其中DDS而不是TCXO被“鎖定”到外部參考。
FNETHE025
25MHz
±25ppm
-20°C ~ 70°C
FNETHE025
25MHz
±25ppm
-20°C ~ 70°C
FNETHE025
25MHz
±25ppm
-20°C ~ 70°C
FNSURV027
27MHz
±30ppm
-20°C ~ 70°C
FNSURV027
27MHz
±30ppm
-20°C ~ 70°C
FNSURV027
27MHz
±30ppm
-20°C ~ 70°C
FNGEPO002
2.048MHz
±50ppm
-20°C ~ 70°C
FNGEPO002
2.048MHz
±50ppm
-20°C ~ 70°C
FNGEPO002
2.048MHz
±50ppm
-20°C ~ 70°C
FKSSD1025
25MHz
±25ppm
-10°C ~ 70°C
FKSSD1025
25MHz
±25ppm
-10°C ~ 70°C
FKSSD1025
25MHz
±25ppm
-10°C ~ 70°C
UJWIFI026
26MHz
±20ppm
-30°C ~ 85°C
UJWIFI026
26MHz
±20ppm
-30°C ~ 85°C
UJWIFI026
26MHz
±20ppm
-30°C ~ 85°C
FNEPON125
125MHz
±50ppm
-20°C ~ 70°C
FNEPON125
125MHz
±50ppm
-20°C ~ 70°C
FNEPON125
125MHz
±50ppm
-20°C ~ 70°C
FK1330001Z
13.3333MHz
±25ppm
-40°C ~ 85°C
FK1330001Z
13.3333MHz
±25ppm
-40°C ~ 85°C
FK1330001Z
13.3333MHz
±25ppm
-40°C ~ 85°C
FJ2400011
24MHz
±50ppm
-40°C ~ 85°C
FJ2400011
24MHz
±50ppm
-40°C ~ 85°C
FJ2400011
24MHz
±50ppm
-40°C ~ 85°C
FJ2400002
24MHz
±50ppm
-40°C ~ 85°C
FJ2400002
24MHz
±50ppm
-40°C ~ 85°C
FJ2400002
24MHz
±50ppm
-40°C ~ 85°C
FN2500149
25MHz
±50ppm
-40°C ~ 85°C
FN2500149
25MHz
±50ppm
-40°C ~ 85°C
FN2500149
25MHz
±50ppm
-40°C ~ 85°C
SXGPON155
155.52MHz
±50ppm
-40°C ~ 85°C
SXGPON155
155.52MHz
±50ppm
-40°C ~ 85°C
SXGPON155
155.52MHz
±50ppm
-40°C ~ 85°C
HX2513F0026.000000
26MHz
±50ppm
-40°C ~ 105°C
HX2513F0026.000000
26MHz
±50ppm
-40°C ~ 105°C
后一種情況(TCXO晶振是開環并且頻率設置在DDS)變得越來越普遍,因為設計人員發現他們可以使用DDS解決方案實現比使用數模轉換器控制TCXO更好的頻率分辨率。由于轉向是在DDS中而不是在振蕩器中完成的,因此設計人員需要能夠對固定參考的頻率如何隨溫度變化做出某些假設,以便他們可以相應地規劃鎖相環的設計。由于靈活性,它們允許TCXO用于許多頻率控制應用,但其中一個重要領域是小型蜂窩基站(femto、micro和pico),它們通常被用作定時分配芯片的固定頻率源.
HX2513F0026.000000
26MHz
±50ppm
-40°C ~ 105°C
HX3125006Q
25MHz
±30ppm
-40°C ~ 105°C
HX3125006Q
25MHz
±30ppm
-40°C ~ 105°C
HX3125006Q
25MHz
±30ppm
-40°C ~ 105°C
NX3211C0125.000000
125MHz
±50ppm
-20°C ~ 70°C
NX3211C0125.000000
125MHz
±50ppm
-20°C ~ 70°C
NX3211C0125.000000
125MHz
±50ppm
-20°C ~ 70°C
FJ1600002
16MHz
±50ppm
-20°C ~ 70°C
FJ1600002
16MHz
±50ppm
-20°C ~ 70°C
FJ1600002
16MHz
±50ppm
-20°C ~ 70°C
JX7011D0070.656000
70.656MHz
±25ppm
-40°C ~ 85°C
JX7011D0070.656000
70.656MHz
±25ppm
-40°C ~ 85°C
JX7011D0070.656000
70.656MHz
±25ppm
-40°C ~ 85°C
UJ2600007Z
26MHz
±20ppm
-20°C ~ 70°C
UJ2600007Z
26MHz
±20ppm
-20°C ~ 70°C
UJ2600007Z
26MHz
±20ppm
-20°C ~ 70°C
FJ1120001Z
11.2896MHz
±25ppm
-40°C ~ 85°C
FJ1120001Z
11.2896MHz
±25ppm
-40°C ~ 85°C
FJ1120001Z
11.2896MHz
±25ppm
-40°C ~ 85°C
FDC500026
125MHz
±50ppm
-20°C ~ 70°C
FDC500026
125MHz
±50ppm
-20°C ~ 70°C
FDC500026
125MHz
±50ppm
-20°C ~ 70°C
HX7011C0025.000000
25MHz
±25ppm
-40°C ~ 105°C
HX7011C0025.000000
25MHz
±25ppm
-40°C ~ 105°C
HX7011C0025.000000
25MHz
±25ppm
-40°C ~ 105°C
NX5011B0125.000000
125MHz
±25ppm
-20°C ~ 70°C
NX5011B0125.000000
125MHz
±25ppm
-20°C ~ 70°C
NX5011B0125.000000
125MHz
±25ppm
-20°C ~ 70°C
FNA000088Z
100MHz
±50ppm
-40°C ~ 85°C
FNA000088Z
100MHz
±50ppm
-40°C ~ 85°C
FNA000088Z
100MHz
±50ppm
-40°C ~ 85°C
FNA000065
100MHz
±25ppm
-20°C ~ 70°C
FNA000065
100MHz
±25ppm
-20°C ~ 70°C
FNA000065
100MHz
±25ppm
-20°C ~ 70°C
NX71C50003
125MHz
±25ppm
-40°C ~ 85°C
TCXO的工作原理
在非常基本的術語中,TCXO通過使用溫度補償網絡來工作,該網絡可以感應環境溫度并將晶體拉至其標稱值。基本的振蕩器電路和輸出級與VCXO中的預期相同。
NX71C50003
125MHz
±25ppm
-40°C ~ 85°C
NX71C50003
125MHz
±25ppm
-40°C ~ 85°C
FNC500131
125MHz
±50ppm
-40°C ~ 85°C
FNC500131
125MHz
±50ppm
-40°C ~ 85°C
FNC500131
125MHz
±50ppm
-40°C ~ 85°C
NX71C50001
125MHz
±20ppm
-20°C ~ 70°C
NX71C50001
125MHz
±20ppm
-20°C ~ 70°C
NX71C50001
125MHz
±20ppm
-20°C ~ 70°C
FM3900001Z
39.0625MHz
±50ppm
-40°C ~ 85°C
FM3900001Z
39.0625MHz
±50ppm
-40°C ~ 85°C
FM3900001Z
39.0625MHz
±50ppm
-40°C ~ 85°C
FKA000018Z
100MHz
±50ppm
-40°C ~ 85°C
FKA000018Z
100MHz
±50ppm
-40°C ~ 85°C
FKA000018Z
100MHz
±50ppm
-40°C ~ 85°C
HX3124501Q
24.545452MHz
±25ppm
-40°C ~ 105°C
HX3124501Q
24.545452MHz
±25ppm
-40°C ~ 105°C
HX3124501Q
24.545452MHz
±25ppm
-40°C ~ 105°C
HX31330001
33MHz
±50ppm
-40°C ~ 90°C
HX31330001
33MHz
±50ppm
-40°C ~ 90°C
HX31330001
33MHz
±50ppm
-40°C ~ 90°C
HX3212F0040.000000
40MHz
±50ppm
-40°C ~ 105°C
HX3212F0040.000000
40MHz
±50ppm
-40°C ~ 105°C
HX3212F0040.000000
40MHz
±50ppm
-40°C ~ 105°C
SX10GE156
156.25MHz
±50ppm
-40°C ~ 85°C
SX10GE156
156.25MHz
±50ppm
-40°C ~ 85°C
SX10GE156
156.25MHz
±50ppm
-40°C ~ 85°C
HX3127001Q
27MHz
±25ppm
-40°C ~ 105°C
HX3127001Q
27MHz
±25ppm
-40°C ~ 105°C
HX3127001Q
27MHz
±25ppm
-40°C ~ 105°C
HX21480001
48MHz
±50ppm
-40°C ~ 105°C
HX21480001
48MHz
±50ppm
-40°C ~ 105°C
HX21480001
48MHz
±50ppm
-40°C ~ 105°C
NX7031E0125.000000
125MHz
±50ppm
-40°C ~ 85°C
NX7031E0125.000000
125MHz
±50ppm
-40°C ~ 85°C
NX7031E0125.000000
125MHz
±50ppm
-40°C ~ 85°C
這個想法是補償網絡驅動牽引網絡,然后調整振蕩器的頻率。
未補償的晶體對溫度的頻率響應(紅色)就像一個3階多項式曲線(如果你考慮振蕩器非線性,則更像是5階),因此補償網絡的目的是產生一個有效地鏡像的電壓關于晶體曲線的溫度軸的圖像,以抵消溫度對晶體的影響。補償電壓以藍色顯示,產生的頻率/溫度曲線以綠色繪制。
HX2127001Q
27MHz
±25ppm
-40°C ~ 105°C
HX2127001Q
27MHz
±25ppm
-40°C ~ 105°C
HX2127001Q
27MHz
±25ppm
-40°C ~ 105°C
SHPCIE100
100MHz
±50ppm
-40°C ~ 85°C
SHPCIE100
100MHz
±50ppm
-40°C ~ 85°C
SHPCIE100
100MHz
±50ppm
-40°C ~ 85°C
SQPCIE100
100MHz
±50ppm
-40°C ~ 85°C
SQPCIE100
100MHz
±50ppm
-40°C ~ 85°C
SQPCIE100
100MHz
±50ppm
-40°C ~ 85°C
SN10GE156
156.25MHz
±50ppm
-40°C ~ 85°C
SN10GE156
156.25MHz
±50ppm
-40°C ~ 85°C
SN10GE156
156.25MHz
±50ppm
-40°C ~ 85°C
SQA000001
100MHz
±50ppm
-40°C ~ 85°C
SQA000001
100MHz
±50ppm
-40°C ~ 85°C
SQA000001
100MHz
±50ppm
-40°C ~ 85°C
NX53D3301Z
133.333333MHz
±50ppm
-40°C ~ 85°C
NX53D3301Z
133.333333MHz
±50ppm
-40°C ~ 85°C
NX53D3301Z
133.333333MHz
±50ppm
-40°C ~ 85°C
JT2553P0016.369000
16.369MHz
±500ppb
-40°C ~ 85°C
JT2553P0016.369000
16.369MHz
±500ppb
-40°C ~ 85°C
JT2553P0016.369000
16.369MHz
±500ppb
-40°C ~ 85°C
JT15260001
26MHz
±500ppb
-30°C ~ 85°C
JT15260001
26MHz
±500ppb
-30°C ~ 85°C
JT15260001
26MHz
±500ppb
-30°C ~ 85°C
NX72F5506Z
155.52MHz
±50ppm
-20°C ~ 70°C
NX72F5506Z
155.52MHz
±50ppm
-20°C ~ 70°C
NX72F5506Z
155.52MHz
±50ppm
-20°C ~ 70°C
NX72F6208Z
156.25MHz
±50ppm
-20°C ~ 70°C
NX72F6208Z
156.25MHz
±50ppm
-20°C ~ 70°C
NX72F6208Z
156.25MHz
±50ppm
-20°C ~ 70°C
HX51706001
70.656MHz
±50ppm
-40°C ~ 105°C
HX51706001
70.656MHz
±50ppm
-40°C ~ 105°C
HX51706001
70.656MHz
±50ppm
-40°C ~ 105°C
HX7011C0020.000000
20MHz
±25ppm
-40°C ~ 105°C
HX7011C0020.000000
20MHz
±25ppm
-40°C ~ 105°C
HX7011C0020.000000
20MHz
±25ppm
-40°C ~ 105°C
PBF620074Z
156.25MHz
±50ppm
-20°C ~ 70°C
PBF620074Z
156.25MHz
±50ppm
-20°C ~ 70°C
PBF620074Z
156.25MHz
±50ppm
-20°C ~ 70°C
NX3241E0100.000000
100MHz
±50ppm
-40°C ~ 85°C
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