A. Parameters ye kɔrɔ

● Power baara

1)Power Supply:+12V～+24Vdc; -12V～-24VdcPower supply, output will overlap. Power supply, output will overlap. Power supply, output will overlap.0.5DC ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n

2)Power Supply Dual: ±6V～±15VPower supply, maximum output voltage related to working voltage. Power supply, maximum output voltage related to working voltage. Power supply, maximum output voltage related to working voltage. Power supply, maximum output voltage related to working voltage.

3)Kɔr luɔi ≤15mA

● Frequency range:0.5Hz～200Hz（-3dB）

● Damping ratio: 0.65±0.05

● Sensitivity: Shift output type8V/mm±5%vP-P(A lëu bï ya waar në kë wɛ̈t kɔc wïc);

Speed output20mV/mm/s±5% RMS

● Maximum amplitude displacement:±3mm

● Amplitude non-linear: ≤5%

● Kɔl ye kɔl ye kɔl ye kɔl ye kɔl ye kɔl ye kɔl ye kɔl ye kɔl ye kɔl ye kɔl ye kɔl ye kɔl ye kɔl ye kɔl:5%

● Temperature de luɔi: -20℃～+85℃

● Kä ye gël: dust-proof, water-proof

● Kuen gël:IP67(Direct cable output can reach)1Pii dɔ̈ɔ̈r dɔ̈ɔ̈r dɔ̈ɔ̈r dɔ̈ɔ̈r dɔ̈ɔ̈r dɔ̈ɔ̈r dɔ̈ɔ̈r)

● Dimensions:Φ66×140mm

● Weight (wala kabel) ca420g

Frequency response range low end is nominal inherent frequency value, where the frequency point sensitivity decreases to nominal value. Frequency response range low end is nominal inherent frequency value, where the frequency point sensitivity decreases to nominal value.0.707（-3dB(High-end cut-off frequency) ye kɔc ye kɔc ye kɔc ye kɔc ye kɔc ye kɔc ye kɔc ye kɔc ye kɔc ye kɔc ye kɔc ye kɔc ye kɔc ye-3dBPoint, sensor frequency response range and sensitivity can be changed according to the user requirements. Point, sensor frequency response range and sensitivity can be changed according to the user requirements. Point, sensor frequency response range and sensitivity can be changed according to the user requirements. Sensor vibration displacement measurement range is limited by output voltage amplitude and vibrator mechanical position, sensitivity high the corresponding measurement range is small, sensitivity low the measurement range can be increased, the two's multiplication is equal to the maximum output voltage. Misal, sa sensor ye ±12VA maximum output voltage when power supply is ± A maximum output voltage when power supply is ± A maximum output voltage when power supply is ± A maximum output voltage when power supply is ±10VNa ye sensitivity8V/mma maximum range of measurement is ± a maximum range of measurement is ± a maximum range of measurement is ± a maximum range of measurement is ± a maximum range of measurement is ±1.25mmNa ye sensitivity4V/mma maximum range of measurement is ± a maximum range of measurement is ± a maximum range of measurement is ± a maximum range of measurement is ± a maximum range of measurement is ±2.5mmYe.

Low-frequency sensitivity threshold is subject to device noise, yes (ye kë ye cɔl low-frequency sensitivity threshold)0.5HzSensor displacement ye1µM. Puwol bɛ̈n laar fo ±6VA tɛ̈n bɛ̈n tɛ̈n bɛ̈n tɛ̈n bɛ̈n tɛ̈n bɛ̈n tɛ̈n bɛ̈n tɛ̈n bɛ̈n t Kabel output lëu300mKa tɛ̈n ye kë ye kek looi, ka tɛ̈n ye kë ye kek looi, ka tɛ̈n ye kë ye kek looi, ka tɛ̈n ye kë ye kek looi.

I. Wɛɛr install

YD9300Low frequency vibration sensors can be installed vertically or horizontally, avoiding traditional vertical, horizontal strict distinction disadvantages. Low frequency vibration sensors can be installed vertically or horizontally, avoiding traditional vertical, horizontal strict distinction disadvantages.

Fɛɛr ye kɛ̈ɛ̈r ye kɛ̈ɛ̈r ye kɛ̈ɛ̈r ye kɛ̈ɛ̈r ye kɛ̈ɛ̈r ye kɛ̈ɛ̈r ye kɛ̈ɛ̈r ye kɛ̈ɛ̈r ye k Ka piny shellM8Screw hole, magnetic suction disk (can be ordered separately) can be attached to the measured object. Magnetic suction disk (can be ordered separately) can be attached to the measured object. Magnetic suction disk (can be ordered separately) can be attached to the measured object. Ni vibration acceleration ka tɛmɛ1gA lëu bï ya tɔ̈ɔ̈u në tɛ̈n yenë tɛ̈n yenë tɛ̈n yenë tɛ̈n yenë tɛ̈n yenë tɛ̈n yenë tɛ̈n yenë tɛ̈n yen

II. Wiring Principle

Air plug output

Kɔl ye sensor ye tɔ̈u në aerospace plug4.2Ye.

（a(Single Power Supply Wire Chart)

（b(Negative Single Power Supply Wire Chart)

(c)Dual Power Supply Cabling Chart

Foto 2YD9300Low frequency vibration sensor aviation plug wiring diagram

Cable output (tɛ̈n yenë kɛ̈ɛ̈l ye kɛ̈ɛ̈l ye kɛ̈ɛ̈l ye kɛ̈ɛ̈l)

●Power supply cable:

Red---Power front end

Blue---Power ku output signal

Yellow---Signal output front end

●Kabel Power Supply Single Negative

Red---Power front end ku output signal negative

Blue---Power ku output signal

Yellow---Signal output front end

●Dual Power Supply Cable:

Red---Power front end

White---Public Place for Power and Output Signals (Wɛ̈ɛ̈r ë kɔc cï gam)

Yellow---Signal output front end

Blue---Power Negative

Output waveform diagram of cable output such as air plug corresponding output waveform (tïŋ diagram)2Output waveform chart).

Luɔi normal ±6V～±12VDC Voltage Regulator Power, Current ye6～13mA.When a low power supply is used, sensitivity is essentially not changed, but the scale will be reduced accordingly.When a low power supply is used, sensitivity is essentially not changed, but the scale will be reduced accordingly.When a low power supply is used, sensitivity is essentially not changed, but the scale will be reduced accordingly. Positive, negative power asymmetry error will cause output zero bias to be slightly changed, but the sensitivity is not changed. Positive, negative power asymmetry error will cause output zero bias to be slightly changed, but the sensitivity is not changed.

3. Kä ye looi ku kä ye looi

1Sensor dɔ̈ɔ̈r në kë bï ya tɛmɛ. Tɛ̈n yenë yen tɔ̈ɔ̈u thïn, a dhil tɔ̈ɔ̈u thïn në kë yenë yen tɔ̈ɔ̈u thïn në kë yenë yen tɔ̈ɔ̈u thïn në kë yenë yen tɔ̈ɔ̈u thïn në kë yenë yen tɔ̈ɔ̈u thïn në5.1.When horizontally installed, the sensor axis line should be placed in the horizontal surface (lying down) and consistent with the measured vibration direction, see the image. When horizontally installed, the sensor axis line should be placed in the horizontal surface (lying down) and consistent with the measured vibration direction, see the image.5.2Ye.

Diagram5.1 Installation Vertical

Diagram5.2 Installation horizontal

2、Connect cable plug to the sensor socket in a strong way.、Connect cable plug to the sensor socket in a strong way.、Connect cable plug to the sensor socket in a strong way.、Connect cable plug to the sensor socket in a strong way.、Connect cable plug to the sensor socket in a strong way.。

3、Connect cable cable with ±12VDC Voltage Regulator Power Connection. Ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka

4Signal line output voltage can access electronic oscilloscope or recorder, computer etc., its input impedance generally requires greater than1KΩWalasa ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka "N'a tïŋ oscilloscope ye signal ye tïŋ, ka tïŋ"DC"file, walasa ka oscilloscope's dielectric capacitors ye waveforms ye low frequency bands ye tɛmɛ.

5Ka tɛmɛ yen, ka tɛmɛ yen ka tɛmɛ yen ka tɛmɛ yen ka tɛmɛ yen ka tɛmɛ yen ka tɛmɛ yen ka tɛmɛ yen ka tɛmɛ yen ka tɛmɛ yen ka tɛmɛ yen. Ka tɛmɛ sababu ye sensor ye tɛmɛ yen, a bɛɛ ye sababu ye tɛmɛ ye tɛmɛ ye tɛmɛ ye tɛmɛ ye tɛmɛ ye tɛmɛ ye tɛmɛ ye tɛmɛ ye!

6Ka tɛmɛ, ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ1minit) ka signal ye tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ.

7A ye kë ye cɔl sensor ye, a ye kë ye cɔl sensor ye, a ye kë ye cɔl sensor ye, a ye kë ye cɔl sensor ye, a ye kë ye cɔl sensor ye, a ye kë ye cɔl sensor ye, a ye kë ye cɔl sensor ye, a ye kë ye cɔl sensor ye, a ye kë ye cɔl sensor ye. N'a tɔ̈ɔ̈u sensors yiic tɛ̈ɛ̈m, a bɛ̈n ya tïŋ ke a bɛ̈n ya tɔ̈ɔ̈u ka tɔ̈ɔ̈u ka tɔ̈ɔ̈u ka tɔ̈ɔ̈u ka tɔ̈ɔ̈u ka tɔ̈ɔ̈ Sensors aye röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt de röt.

8Në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn, në ye mɛn30(Second) a lëu a lebga a tɛ̈n ye, a lëu a tɛ̈n ye.

9Ka tɛmɛ, tɛmɛ riɛl ye, ka tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ.

10Sensor ye tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka tɔ̈u ka

11Ne yïn ye raan ye yök, yïn ka lɔ̈ɔ̈m ba lɔ̈ɔ̈m ba lɔ̈ɔ̈m ba lɔ̈ɔ̈m ba lɔ̈ɔ̈m.