This product is no longer available and has been replaced by: TDR200.
| 利用できるサービス | |
|---|---|
| 修理 | 対応 |
| キャリブレーション | 非対応 |
| フリーサポート | 対応 |
概要
The TDR100 Time-Domain Reflectometer is the core of the Campbell Scientific time-domain reflectometry system. This system is used to accurately determine soil volumetric water content, soil bulk electrical conductivity, rock mass deformation, or user-specific time-domain measurement. Up to 16 TDR100s can be controlled using a single Campbell Scientific data logger. PC-TDR software is used with our TDR100-based systems during system setup and troubleshooting. It can be downloaded from the Downloads section of the web page.
続きを読む利点と特徴
- Compact, low-cost reflectometer
- Designed for use in remote applications
- Determines volumetric water content and electrical conductivity in soil and other porous media
- Compatible with CR800, CR850, CR1000, and CR3000 dataloggers
イメージ
詳細
The TDR100 (1) generates a short rise time electromagnetic pulse that is applied to a coaxial system that includes a TDR probe for soil water measurements and (2) samples and digitizes the resulting reflection waveform for analysis or storage.
The elapsed travel time and pulse reflection amplitude contain information used by the on-board processor to quickly and accurately determine soil volumetric water content, soil bulk electrical conductivity, rock mass deformation or user-specific, time-domain measurement.
The data logger collects a 250-point waveform and analyzes it in approximately two seconds. Each waveform can have up to 2,048 data points for monitoring long cable lengths used in rock mass deformation or slope stability. Averaging up to 128 readings makes accurate measurements possible in noisy environments.
仕様
| Pulse Generator Output | 250 mV into 50 Ω |
| Output Impedance | 50 Ω ±1% |
| Time Response of Combined Pulse Generator & Sampling Circuit | ≤ 300 ps |
| Pulse Length | 14 µs |
| Timing Resolution | 12.2 ps |
| Waveform Averaging | 1 to 128 |
| Electrostatic Discharge Protection | Internal clamping |
| Power Supply |
Unregulated 12 V
(9.6 to 16 V) 300 mA maximum |
| Operating Temperature Range | -40° to +55°C |
| Pulse Generator Aberrations |
|
| Dimensions | 23.6 x 5.9 x 12.6 cm (9.3 x 2.3 x 5.0 in.) |
| Weight | 726 g (1.6 lb) |
Waveform Sampling |
|
| -NOTE- |
20 to 2048 waveform values over chosen length Distance is Vp=1. Time is one-way travel. |
| Range |
|
| Resolution |
|
Current Drain |
|
| During Measurement | 270 mA |
| Sleep Mode | 20 mA |
| Standby Mode | 2 mA |
互換性
注意: 以下は代表的な互換性情報を示しています。互換性のある製品や互換性のない製品をすべて網羅したリストではありません。
Data Loggers
| 製品 | 互換性 | 注意 |
|---|---|---|
| 21X (リタイア) | ||
| CR10 (リタイア) | ||
| CR1000 (リタイア) | ||
| CR10X (リタイア) | ||
| CR200X (リタイア) | ||
| CR206X (リタイア) | ||
| CR211X (リタイア) | ||
| CR216X (リタイア) | ||
| CR23X (リタイア) | ||
| CR295X (リタイア) | ||
| CR3000 (リタイア) | ||
| CR500 (リタイア) | ||
| CR5000 (リタイア) | ||
| CR510 (リタイア) | ||
| CR800 (リタイア) | ||
| CR850 (リタイア) | ||
| CR9000 (リタイア) | ||
| CR9000X (リタイア) |
互換性に関する追加情報
Data Logger Considerations
To control the TDR100, the data logger uses TDR100 instruction in CRBasic or Instruction 119 in Edlog. All CR800-series, CR1000, and CR3000 operating systems (OS) are compatible with the TDR100. The CR10X operating system (OS) should be version 1 rev. 13 or higher and the CR23X OS should be version 1 rev. 10 or higher.
Enclosure Considerations
The TDR100 requires a desiccated, non-condensing environment; a Campbell Scientific enclosure is recommended. The TDR100's case has mounting flanges for attachment to the 1 in.-on-center hole grid of Campbell Scientific enclosures.
ダウンロード
TDR100 OS v.0.9724 (60 KB) 15-08-2012
Current TDR100 Operating System. PC-TDR must be connected to TDR100.PC-TDR v.3.0 (7.34 MB) 15-12-2016
Support software designed for the TDR200 and is also compatible with the retired TDR100 Time-Domain Reflectometer.
よくある質問
TDR100に関するよくある質問の数: 15
すべて展開すべて折りたたむ
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Campbell Scientific offers six soil probes that have different rods and connector cables, allowing them to be used in diverse soil types and with a variety of cable lengths. For more details, see the listed TDR100 probes.
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The TDR100 ships with the items listed in the Ships With box on the right side of this page.
In addition, consider purchasing the ENCTDR100 TDR System Enclosure. This enclosure ships with many items necessary for a TDR100 Data Acquisition System. See the Ships With box on the right side of this page.
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No. A CRBasic or Edlog data logger editor (included in PC400 and LoggerNet software) is needed to write program code for the TDR100. Short Cut for Windows (SCWin) is not designed to handle the many variables of the TDR100.
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These three multiplexers all use the same relay board, but the housing differs. The multiplexers are described side-by-side on page 2 of this brochure.
The most popular model is the SDMX50SP, followed by the SDMX50.
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Yes. The data logger can be programmed to store time-series data from the TDR100. The time-series data can then be viewed using PC400 or LoggerNet. For program examples, see the TDR100 Instruction Manual.
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PC-TDR is a free download in the Downloads section of the PC-TDR web page..
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No, as of September 2014. The PC-TDR support software can be downloaded free-of-charge from the Downloads section of the PC-TDR product page.
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Yes. The data logger can be programmed to send commands to the TDR100 and to store the measurement results. A flag can be used in the program to initiate measurement and store these results.
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Both of these are SDM devices. Each SDM device that is connected to a data logger needs a different SDM address (that is, 0 through 15). All SDM devices connect to the CR1000’s 12V, G, C1, C2, or C3 terminals. Up to 15 SDM devices can be connected to one data logger.
For more information, see the Synchronous Devices for Measurement (SDMs) page.
ケーススタディ
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カリフォルニア州サンディエゴ郡のノース カウンティ トランジット ディストリクト (NCTD) は、デル マーの海岸沿いの崖の上にある 3 区間の線路で、危険な斜面の変動を監視する必要があると判断しました。これにより、3,300 フィート (1,000 メートル) の線路に沿った継続的な監視システムが開発されました。監視対象の長さのため、複数の傾斜計や設置型傾斜計 (IPI) などの従来の単一ポイント監視システムの使用は実用的ではありませんでした。崖の崩壊は線路のどこででも発生する可能性があるため、単一ポイントの計器を使用するには、多数のセンサーとモニターが必要になります。代わりに、線路の危険度の高い区間に沿って、水平時間領域反射率測定......続きを読む
オハイオ州運輸局 (Ohio DOT) が州間高速道路 77 号線の拡張を準備していたとき、廃坑となった地下炭鉱の上にある高速道路の一部が沈下していることを発見しました。路盤を安定させるため、高速道路の交通は維持したまま炭鉱の空洞をセメント グラウトで埋め戻すことにしました。修復作業中に炭鉱がさらに沈下する可能性があるため、Ohio DOT は、路盤の移動や沈下が発生したときにアラームを発するリアルタイム モニタリング システムを設置することを要求しました。Ohio DOT は、豊富な経験を持つ GeoTDR を採用し、時間領域反射率測定......続きを読む
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