説明
商品名: 無線熱電対データロガー
メーカー: MICROEDGE INSTRUMENTS (CANADA)
シリーズ: PRECISE-LOG
モデル: PL-TW
PL-TWは、8チャンネル、バッテリ駆動、スタンドアロンおよびWIFI対応の熱電対データロガーです。ロガーは8つの外部熱電対を記録し、データを8 MBメモリに保存します。
内蔵WIFIモジュールにより、リモートデータの監視とダウンロードが可能です。
16ビットADCは、正確で正確な測定が重要な科学および実験室のアプリケーションに最適です。
そのアルミニウムエンクロージャーはそれを最も過酷な産業環境で優秀にします。
WIFIカバーエリアでロガーの電源を入れて、設定、ダウンロード、グラフ表示などのためにコンピューターからアクセスしてください
特徴:
- 8ch
- 16ビットA / Dコンバータ
- 冷接点補償
- 8メガバイトのメモリサイズ
- USBとWIFIの両方が通信します。ボーレート115200 bpsのインターフェース
- プログラム可能な入力範囲(73mV、18mV)
- 10年以上のバッテリー寿命
- 設定、ダウンロード、プロット、分析、およびアラーム報告のための強力なソフトウェア
- 広いサンプリング間隔の選択(1秒から12時間)
- 頑丈なアルミ製筐体
Modbus
2019年7月15日から、Modbus TCPプロトコルがすべてのPRECISE-LOGシリーズのデータロガーに追加されます。Modbusマスタ/クライアントは、Modbus TCP通信を介してPRECISE-LOGデータロガーで利用可能な1つ以上の入力レジスタと保持レジスタを読み取ることができます。
The below specifications list all supported commands and available registers PL-TW data logger supports:
Input Registers:
An Input Register stores a 16-bit integer for a channel’s real-time reading. To read one or more 16-bit Input register data, use function code 4.
Register |
Description |
Type |
Range |
0 |
CH0 Value |
Unsigned Integer |
0 – 65535 |
1 |
CH1 Value |
Unsigned Integer |
0 – 65535 |
2 |
CH2 Value |
Unsigned Integer |
0 – 65535 |
3 |
CH3 Value |
Unsigned Integer |
0 – 65535 |
4 |
CH4 Value |
Unsigned Integer |
0 – 65535 |
5 |
CH5 Value |
Unsigned Integer |
0 – 65535 |
6 |
CH6 Value |
Unsigned Integer |
0 – 65535 |
7 |
CH7 Value |
Unsigned Integer |
0 – 65535 |
8 |
CH8 Value |
Unsigned Integer |
0 – 65535 |
Example:
To read CH2, CH3 and CH4’s real-time values, a Modbus master device sends in the following command:
Data(HEX) |
Description |
Note |
0001 |
Transaction identifier |
Fixed 2-byte value |
0000 |
Protocol identifier |
Fixed 2-byte value |
0006 |
Length(6 bytes are followed) |
2-byte value |
01 |
The device address |
1-byte value, don’t care |
04 |
Function Code (read Input Register) |
1-byte value |
0002 |
First register’s address |
2-byte value |
0003 |
The number of required registers (read 3 registers 0002 to 0004) |
2-byte value |
Holding Registers:
A Holding Register stores a 16-bit integer indicating a setting for the data logger. To read one or more 16-bit Holding Register data, use function code 3.
Register |
Description |
Type |
Range/Equation |
0 |
Sample Interval |
0: below 1 second
>=1: sample interval in second |
0 – 65535 seconds |
1 |
Device Operating Mode |
0: logging stopped
1: logger is logging data |
|
10 |
CH0 Type |
0:thermistor |
|
11 |
CH0 Enabled |
0:disabled
1:enabled |
If a channel is disabled, the reading is unknown |
12 |
CH0 Equation |
0: thermistor |
Range: -40 to + 70 ℃ / -40 to 158 ℉
Equation for Metrics:
O = 110 * I / 65535 – 40
Equation for Imperial:
O = 198 * I / 65535 – 40 |
X0 |
CHX-1 Type |
0: Wide Range |
-8 to + 74 mV |
1: Narrow Range |
-2 to + 18 mV |
X1 |
CHX-1 Enabled |
0: Disabled
1: Enabled |
If a channel is disabled the reading is unknown |
X2 |
CHX-1 Equation |
0: Wide-Range Voltage |
Voltage Equation (mV)
O = 81 * I / 65535 – 8 |
1: Wide-Range TC E |
-171 to + 955 ℃ / -275.8 to + 1751 ℉
Temperature Equation (Metrics):
O = 1126 * I / 65535 – 171
Temperature Equation (Imperial):
O = 2026.8 * I / 65535 – 275.8 |
2: Wide-Range TC J |
-205 to + 1200 ℃ / -337 to + 2192 ℉
Temperature Equation (Metrics):
O = 1405 * I / 65535 – 205
Temperature Equation (Imperial):
O = 2529 * I / 65535 – 337 |
3: Wide-Range TC K |
-270 to + 1372 ℃ / -454 to + 2501.6 ℉
Temperature Equation (Metrics):
O = 1642 * I / 65535 -270
Temperature Equation (Imperial):
O = 2955.6 * I / 65535 – 454 |
4: Wide-Range TC N |
-270 to 1300 °C / -454 to 2372 ℉
Temperature Equation (Metrics):
O = 1570 * I / 65535 – 270
Temperature Equation (Imperial):
O = 2826 * I / 65535 – 454 |
5: Wide-Range TC T |
-270 to + 400 °C / -454 to +752 ℉
Temperature Equation (Metrics):
O = 670 * I / 65535 – 270
Temperature Equation (Imperial):
O = 1206 * I / 65535 – 454 |
6: Narrow-Range Voltage |
Voltage Equation (mV):
O = 20 * I / 65535 – 2 |
7: Narrow-Range TC E |
-35 to + 260 °C / -31 to +500 ℉
Temperature Equation (Metrics):
O = 295 * I / 65535 – 35
Temperature Equation (Imperial):
O = 531 * I / 65535 – 31 |
8: Narrow-Range TC J |
-40 to +330 °C / -40 to +626 ℉
Temperature Equation (Metrics):
O = 370 * I / 65535 -40
Temperature Equation (Imperial):
O = 666 * I / 65535 – 40 |
9: Narrow-Range TC K |
-53 to +437 °C / -63.4 to +818.6 ℉
Temperature Equation (Metrics):
O = 490 * I / 65535 – 53Temperature Equation (Imperial):
O = 882 * I / 65535 – 63.4 |
10: Narrow-Range TC N |
-81 to +532 °C / -113.8 to +989.6 ℉
Temperature Equation (Metrics):
O = 613 * I / 65535 – 81Temperature Equation (Imperial):
O = 1103.4 * I / 65535 – 113.8 |
11: Narrow-Range TC T |
-55 to +353 °C / -67 to +667.4 ℉
Temperature Equation (Metrics):
O = 408 * I / 65535 – 55
Temperature Equation (Imperial):
O = 734.4 * I / 65535 – 67 |
12: Narrow-Range TC B |
0 to 1820 °C / 32 to +3308 ℉
Temperature Equation (Metrics):
O = 1820 * I / 65535
Temperature Equation (Imperial):
O = 3276 * I / 65535 + 32 |
13: Narrow-Range TC R |
-50 to +1539 °C / -58 to 2802.2 ℉
Temperature Equation (Metrics):
O = 1589 * I / 65535 – 50
Temperature Equation (Imperial):
O = 2860.2 * I / 65535 – 58 |
14: Narrow-Range TC S |
-50 to +1704 °C / -58 to 3099.2 ℉
Temperature Equation (Metrics):
O = 1754 * I / 65535 – 50
Temperature Equation (Imperial):
O = 3157.2 * I / 65535 – 58 |
15: Linear |
O = (LRH – LRL) * I / 65535 + LRL
Where:
LRH is Linear Range high value
LRL is Linear Range low value
You can get those values from SiteView |
Where X = 2,3,4,5,6,7,8,9
O = Output, I = Input Register Value
Example:
To read CH3’s equation, a Modbus master device sends in the following command:
Data(HEX) |
Description |
Note |
0001 |
Transaction identifier |
Fixed 2-byte value |
0000 |
Protocol identifier |
Fixed 2-byte value |
0006 |
Length(6 bytes are followed) |
2-byte value |
01 |
The device address |
1-byte value, don’t care |
03 |
Function Code (read Holding Register) |
1-byte value |
002A |
First register’s address (42 is 2A in HEX) |
2-byte value |
0001 |
The number of required registers (read 1 registers 002A) |
2-byte value |
Note:
- Modbus feature was added to firmware version 2.05 or above.To upgrade a data logger’s firmware please refer to this link: How can I upgrade logger firmware?
- The age of an Input Register data is based the data logger’s sample interval.If the logger has stopped logging or the logger’s sampling interval is slower than five seconds, a request of Input Register data will initiate the sampling process and the new data will be available upon the next request.