_svg+%e6%8b%b7%e8%b2%9d.jpg)
.jpg)
- 頻率範圍可達DC-400MHz,內建6GHz Channel 3
- 每秒12位的精確量測
- 40ps時間間隔解析度
- 絶佳的萬用特色
- 完整的數學運算功能及簡易的操作面板
- 快速量測及特殊應用
- 免費的遠端操控軟體及常用的SCPI指令
注意 : 紅色字體為U6220A 沒有提供的功能
12位解析含6GHz頻率量測
本公司根據ISO9004製程所生產出的U6200A萬用計頻器能夠提供每秒12位數頻率解析(見Figure-1)、40 ps時間間隔解析,以及完整的測試與分析功能。另外,本產品還內建第三頻道,可量測頻率從375 MHz到6GHz,而第一和第二頻道,可量測頻率從1 mHz到 to 400 MHz。
絕佳的萬用特色
本產品U6200A也提供了其它不錯的功能及設計,例如:頻率比率(每秒11位)、時間間隔、週期(2.5 ns至1000 s)、 工作週期、脈衝寬度、上升/下降時間、峰值電壓(100 Hz到300 MHz)、相位、總計、時基溫度變化穩定度 (小於 1 PPM)、老化率(每年小於 2 PPM)、時基參考(I/O見Figure-2)、前端完全隔離。另外還提供20組記憶空間,讓使用者儲存常用的設定(見Figure-3)。
完整的數學運算功能及簡易的操作面板
本產品U6200A內建統計及數學運算功能。使用者可以做一般量測、同步量測、中間值統計、最大/最小值統計、三角函數統計及標準差統計(見Figure-4)。以及運用Scale & Offset功能按鍵,使用者可依實際應用加入補償值。而要完成以上操作並依需求輸入數值,使用者只要輕易地利用本產品面板上的數字鍵即可。再者,本公司為了使用者操作方便,將功能按鍵設計成當功能啟用時,按鍵便會亮起(見Figure-5)。
快速量測及特殊應用
本產品U6200A採用即時數位訊號進程技術,即可在分析數據之際,同時讀取新值並做快速量測。值得一提的是「限制模式」,使用者可以依需求設定最大及最小界值,並透過面板設定成Go-On或Stop,再開啟USB Output,此時只要量測值超過所設定的範圍,U6200A就會依設定繼續或停止量測,同時送出訊號觸發外部裝置(見Figure-6)。
免費的遠端操控軟體及常用的SCPI指令
使用者除了可以透過微軟Excel應用軟體(見圖九),經由內建的USB或選購的GPIB介面取得資料,還可以利用U6200A支援網路伺服器功能,將內建的乙太網路連結PC,並在PC上的網路瀏覽器中鍵入預設的位址192.168.0.247,使用者便可透過圖像使用者介面GUI(見Figure 10)操控U6200A。另外,靠著與安捷倫53132A相容的SCPI指令集,U6200A能夠在應用上提供使用者熟悉的語法字串。相關指令集訊息,請參照使用U6200A使用手冊第七章節。
U6200A / U6220A 規格表
A. Specification List
This appendix contains the specifications of the U6200A/220A. It covers the AC, DC, Resistance, Temperature, and Frequency/Period characteristics under a variety of conditions. It also contains the general characteristics and accuracy calculations for your convenience. A lot of efforts are made to make sure these specifications serve your needs for production, engineering and/or research purposes. All specification applies to the U6200A/220A unless noted otherwise.
※ Note: The U6220A doesn’t provide the specifications colored green.
|
Channel 1 & 2 (for U6200A only) Input Specifications |
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DC Coupled |
1mHz to 400 MHz |
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AC Coupled |
200KHz to 400 MHz (50 Ω) 30 Hz to 400 MHz (1 MΩ) |
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FM Tolerance |
FM Tolerance: 25% |
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Voltage Range and Sensitivity |
||
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1mH to 225 MHz |
20 mVrms to ±5 V ac + dc (Medium and High) 25 mVrms to ±5 V ac + dc (Low) |
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225 MHz to 400 MHz |
30 mVrms to ±5 V ac + dc |
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Channel 1 & 2 (for U6200A only) Input Characteristics |
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Impedance (ATT X 1, 1 MΩ Capacitance) (ATT X 10, 1 MΩ Capacitance) |
1 MΩ or 50 Ω 24 pF 15 pF |
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Coupling |
AC or DC |
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Low-Pass Filter |
100 KHz (or disabled) –20 dB at > 1 MHz |
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Input Sensitivity |
Selectable between Low, Medium(default), or High Medium is approximately 1.35x High Sensitivity, low is approximately 1.7x High Sensitivity |
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Internal Noise |
200uVrms(typical) |
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Voltage Range and Sensitivity (Single-Shot Pulse) |
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1.5ns to 10ns Pulse Width |
80 mVpp to 10 Vpp (150 mVpp with optional rear connectors) |
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>10 ns Pulse Width |
50 mVpp to 10 Vpp (150 mVpp with optional rear connectors) |
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Trigger Level(ATT x 1) |
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Range |
±5.125 V |
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Accuracy |
±(15 mV + 1% of trigger level) |
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Resolution |
2.5mV |
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ATT x 10 Range |
X 10 |
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Trigger Slope |
Positive or Negative |
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Auto Trigger Level |
Range |
0 to 100% in 1% steps |
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Frequency |
Peak Voltage fast mode >10 KHz Peak Voltage slow mode > 100 Hz Amplitude> 100 mVpp (No amplitude modulation) |
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Damage Level |
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DC~400MHz 50 Ω |
12 Vrms |
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0 to 3.5 kHz, 1 MΩ |
350 V dc + ac pk |
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3.5 kHz to 100KHz, 1 MΩ |
350 V dc + ac pk linearly derated to 12 Vrms |
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100KHz to 400MHz, 1 MΩ |
12 Vrms |
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Attenuator |
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Voltage Range |
x10 |
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Trigger Range |
x10 |
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1. Specifications and Characteristics for Channels 1 and 2 are identical for both Common and Separate Configurations.
2. Values shown are for x 1 attenuator setting. Multiply all values by 10 (nominal) when using the x 10 attenuator setting. Note that it may necessary to recalibrate the input offset in the application environment (especially at high temperature) to achieve maximum sensitivity.
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Channel 3 Input Specifications (for U6200A only) |
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Frequency Range |
375 MHz to 6 GHz |
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Channel 3 Input Characteristics (for U6200A only) |
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Impedance |
50 Ω |
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Coupling |
AC |
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VSWR |
< 2.5:1 |
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Power Range and Sensitivity (Sinusoid) |
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375 MHz to 500 MHz |
-16 dBm to +15 dBm |
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500 MHz to 1 GHz |
-20 dBm to +15 dBm |
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1 GHz to 2 GHz |
-23 dBm to +15 dBm |
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2 GHz to 4 GHz |
-25 dBm to +15 dBm |
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4 GHz to 5 GHz |
-21dBm to +15 dBm |
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5 GHz to 5.5 GHz |
-20 dBm to +15 dBm |
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5.5 GHz to 6 GHz |
-17 dBm to +15 dBm |
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Damage Level |
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+25 dBm, DC ±12V |
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External Arm Input Specifications |
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Signal Input Range |
LVTTL and TTL compatible |
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Timing Restrictions |
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Pulse Width |
> 50 ns |
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Transition Time |
< 250 ns |
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Start-to-Stop Time |
> 50 ns |
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Damage Level |
12 Vrms |
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External Arm Input Characteristics |
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Impedance |
1 kΩ |
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Input Capacitance |
17 pF |
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Start Slope |
Positive or Negative |
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Stop Slope |
Positive or Negative |
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Notes |
1. External Arm is available for all measurements except Peak Volts. 2. External Arm is referred to as External Gate for some measurements. |
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Internal Time Base Stability |
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Standard (0° to 50°C) |
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Temperature Stability (referenced to 25°C) |
<± 1 x 10-6 |
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Aging Rate |
Per Day Per Month Per Year |
± 2 ppm |
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Calibration |
Electronic |
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External Time Base Input Specifications |
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Voltage Range |
200 mVrms to 10 Vrms |
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Damage Level |
12 Vrms |
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External Time Base Input Characteristics |
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Threshold |
0 V |
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Impedance |
1 kΩ |
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Input Capacitance |
25 pF |
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Input Frequency |
10 MHz |
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Internal vs. External Time Base Selection |
Manual |
Select Internal or External |
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Automatic |
Internal used when External not present (default) |
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Time Base Output Specifications |
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Output Frequency |
10 MHz |
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Voltage |
570 mVpp (0 dBm), typical |
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Impedance |
50 Ω (typical), AC coupled |
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Measurement Specifications |
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Frequency, Period Channel 1 and 2 |
1 mHz to 400 MHz (2.5 ns to 1000 s) |
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Trigger |
Default setting is Auto Trigger at 50 % |
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“Default” Gate Time |
0.1 sec |
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STD CH 3 |
375 MHz to 6 GHz (0.166 ns to 2.6 ns) |
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Frequency Ratio |
CH 1/ CH 2, CH 1/ CH 3, CH 2/ CH 1, CH 3/ CH1 |
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(Measurement is specified over the full signal range of each input.) |
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Results Range |
10-10 to 1011 |
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“Default” Gate Time |
0.1 sec |
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Time Interval |
Measurement is specified over the full signal ranges of Channels 1 and 2. The width of the pulse must be greater than 1 ns, frequency range to 300 MHz. |
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Trigger |
Default setting is Auto Trigger at 50 % |
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Results Range |
-0.5 ns to 105 s |
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Resolution |
40 ps |
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RMS Resolution |
120 ps |
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Systematic Uncertainty |
±(TI × Time Base Error) ± Trigger Level Timing Error ± 500 ps Differential Channel Error |
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Pulse Width Time |
Measurement is specified over the full signal range of Channel 1. The width of the pulse must be greater than 1 ns frequency range to 300 MHz). |
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Pulse Selection |
Positive or Negative |
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Trigger |
Default setting is Auto Trigger at 50% |
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Results Range |
1.5 ns to 105 s |
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Resolution |
40 ps |
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RMS Resolution |
120 ps |
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Systematic Uncertainty |
± (Pulse Width Time x Time Base Error) ± Trigger Level Timing Error ± 500 ps Differential Channel Error. |
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Rise/Fall Time |
Measurement is specified over the full signal range of Channel 1. The width of the pulse must be greater than 1 ns frequency range to 300 MHz). |
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Edge Selection |
Positive or Negative |
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Trigger |
Default setting is Auto Trigger at 10% and 90% |
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Results Range |
2 ns to 105 s |
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Resolution |
40 ps |
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RMS Resolution |
120 ps |
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Systematic Uncertainty |
± (Edge Time x Time Base Error) ± Trigger Level Timing Error ± 500 ps Differential Channel Error |
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Phase |
Measurement is specified over the full signal range of each input. The width of the pulse must be greater than 1 ns, frequency range to 300 MHz |
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Results Range |
-180° to +360° |
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Resolution |
40 ps |
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RMS Resolution |
120 ps |
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Systematic Uncertainty |
± (Trigger Level Timing Error) ×Frequency |
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Duty Cycle |
Measurement is specified over the full signal range of Channel 1. The width of the pulse must be greater than 1 ns, frequency range to 300 MHz |
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Pulse Selection |
Positive or Negative |
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Trigger |
Default setting is Auto Trigger at 50 % |
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Results Range |
0 to 1 |
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Resolution |
40 ps |
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RMS Resolution |
120 ps |
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SystematicUncertainty |
± Trigger Level Timing Error ± 500 ps Differential Channel Error |
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Totalize |
Measurement is specified over the full signal range of Channel 1. The width of the pulse must be greater than 1 ns, frequency range to 400 MHz |
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Pulse Selection |
Positive or Negative |
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Trigger |
Default setting is Trigger at 0 V |
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Results Range |
0 to 1015 |
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Resolution |
1 count |
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Systematic Uncertainty |
± 1 count |
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Peak Voltage |
Results Range |
-5.1 V to + 5.1 V | ||||||||
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Resolution |
2.5 mV | |||||||||
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DC Signals |
|
15 mV + 2 % of V | peak-to-peak amplitude greater than 200 mV | |||||||
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DC Signals (ATT x 10) |
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150 mV + 2 % of V | peak-to-peak amplitude greater than 1 V | |||||||
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1 Vp-p, 50 Ω, ATT OFF |
100 Hz ~ 10 KHz |
15 mV + 2 % of V |
peak-to-peak amplitude greater than 200 mV | |||||||
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10 KHz ~ 5 MHz |
15 mV + 4 % of V |
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5 MHz ~ 80 MHz |
15 mV + 7 % of V |
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80 MHz ~ 300 MHz |
15 mV + 15 % of V |
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Rear Input Option Channel Isolation |
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Frequency |
Front Channel(dB) |
Rear Channel(dB) |
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100KHz |
<-85 |
<-85 |
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1MHz |
-85 |
-75 |
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10MHz |
-78 |
-55 |
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50MHz |
-67 |
-42 |
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100MHz |
-62 |
-37 |
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200MHz |
-55 |
-35 |
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300MHz |
-50 |
-36 |
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400MHz |
-47 |
-33 |
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The peak volts measurement will keep operating up to 400 MHz, although results act as references only.
The differential channel Error terms which counted by many systematic uncertainty equations result channel-to-channel disaccord and internal noise. These issues can be improved by the TI calibration in the well-controlled temperature environment.
A.1 RMS Resolution
|
Rms |
100Hz |
1KHz |
10KHz |
100KHz |
|
U62 (10ms) |
0.000000842 |
0.000003438 |
0.000013896 |
0.000067275 |
|
U62 (100ms) |
0.0000001 |
0.000000828 |
0.000005093 |
0.000011508 |
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U62 (1s) |
0.000000001 |
0.000000098 |
0.000001212 |
0.000004869 |
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Rms |
1MHz |
10MHz |
100MHz |
1GHz |
|
U62 (10ms) |
0.000677504 |
0.004830870 |
0.042107484 |
0.611551072 |
|
U62 (100ms) |
0.000101040 |
0.002272900 |
0.006344503 |
0.055991810 |
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U62 (1s) |
0.000058166 |
0.000469601 |
0.001275299 |
0.002602258 |
The graph doesn’t include the effects of trigger error. To place an upper bound on the added effect of this error term, it’s necessary to determine the frequency error from the proper graph and add a trigger error term as the following equation:
External source and input amplifier noise might advance or postpone the trigger points that define the start and end of a measurement. The resulting timing uncertainty is a function of the slew rate of the signal and the amplitude of spurious noise spikes (relative to the input hysteresis band).
The (rms) trigger error relative to a single trigger point is:
B. Preset Values and Save/Recall Information
※ Note: The U6220A doesn’t provide the function via the channel 2 colored green.
|
|
Value at *RST |
In Save/Recal |
In non-volatile memory |
|
|
Input impedance |
CH1 |
1E+6Ohms |
yes |
no |
|
CH2 |
1E+6Ohms |
yes |
no |
|
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Input Attenuation |
CH1 |
×1 |
yes |
no |
|
CH2 |
×1 |
yes |
no |
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Trigger Level |
CH1 (percent) |
50 |
yes |
no |
|
CH2 (percent) |
50 |
yes |
no |
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CH1 (volts) |
0 |
yes |
no |
|
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CH2 (volts) |
0 |
yes |
no |
|
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Trigger Slope |
CH1 |
positive |
yes |
no |
|
CH2 |
positive |
yes |
no |
|
|
Sensitivity |
CH1 |
Medium |
yes |
no |
|
CH2 |
Medium |
yes |
no |
|
|
Scale |
1 |
yes |
no |
|
|
Offset |
0 |
yes |
no |
|
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Limits parameters |
Limit test on/off |
off |
yes |
no |
|
On fail stop/go on |
go on |
yes |
no |
|
|
Lower limit |
0 |
yes |
no |
|
|
Upper Limit |
0 |
yes |
no |
|
|
Stats parameters |
Stats on/off |
off |
yes |
no |
|
Measurement count |
100 |
yes |
no |
|
|
Display measurement/stats |
measurement |
yes |
no |
|
|
Use all/in limits |
all |
yes |
no |
|
|
On-single measurement |
1 |
yes |
no |
|
|
Timebase |
auto |
yes |
no |
|
|
Trigger Offset Cal Parameters |
Channel 1 trigger offset Inp1 cal |
no |
yes |
|
|
Channel 2 trigger offset Inp2 cal |
no |
yes |
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|
Channel 1 trigger offset Att1 cal |
no |
yes |
||
|
Channel 2 trigger offset Att2 cal |
no |
yes |
||
|
Trigger Gain Cal Parameters |
Channel 1 trigger gain Inp1 cal |
no |
yes |
|
|
Channel 2 trigger gain Inp2 cal |
no |
yes |
||
|
Channel 1 trigger gain Att1 cal |
no |
yes |
||
|
Channel 2 trigger gain Att2 cal |
no |
yes |
||
|
Time Interval Offset Cal Parameters |
Fine1 |
no |
yes |
|
|
Fine2 |
no |
yes |
||
|
Quick |
no |
yes |
||
|
Timebase cal Parameters |
no |
yes |
||
C. General Specifications
※ Note: The U6220A doesn’t support the accessories from item 1 ~ 4 colored green.
| Item | Limitation & description |
| Power Supply Voltage | 100V/240V ± 10% 50Hz~60Hz ± 10% |
| 100V/120V ± 10% 400Hz ± 10% | |
| Power Requirements | Max. 80VA (30W Typtical) |
| Operating Humidity | Maximum relative humidity 80% for temperature up to 31 ℃ decreasing linearly to 50% relative humidity at 40℃ |
| Operating Environment | 0 to 55 ℃ |
| Storage Temperature | - 40 ℃ to 70 ℃ |
| Operating Altitude | Up to 2000m |
| Dimensions for Rack (WxHxD) | 214.6 x 88.6 x 346.9 mm |
| Weight | 3130 g / 2887 g |
| Safety | IEC61010-1:2010/EN61010-1:2010 (3rd Edition) |
| IEC61010-2-030:2010(1st Edition)/ | |
| EN61010-2-030:2010 | |
| EMC | EN61326, IEC61000-3, IEC61000-4 |
| Warm-up Time | 1 Hour |
| Warranty | 1 Year |
| Accessory |
1. U6200-opt04: Rear panel input module (CH1/CH2) 2. U6200-opt05: Rear panel input module (CH1/CH2/CH3) 3. M3500-opt04: GPIB Card |
※ Note 1: The accessories have to be assembled in Picotest.
※ Note 2: Not to position the equipment so that it is difficult to operate the disconnecting device.
※ Note 3: Documentation shall instruct against replacing detachable mains supply cords by inadequately rated cords.
選購配件
U6200-OPT04 : Rear Input (CH1/2)模組
U6200-OPT05 : Rear panel input (CH1/2/3)模組
M3500-OPT04 : GPIB卡
