T40FH 扭矩传感器-高精度扭矩测量-德国HBM-仪器仪表网

详细描述Detailed description

T40FH 扭矩传感器: 极高扭矩测量

T40FH 扭矩传感器是极高扭矩测量第一选择 - 通过极高扭矩测量提高效率和生产力，而无需其他昂贵设备。

旋转型T40FH 扭矩传感器是轮船主发动机功率测试台和离岸工业测试的理想选择。内置的仪表使其非常易于使用并获得可靠的测量结果。非旋转型 T40FH 扭矩传感器适合用于特定的标定应用。

T40FH 扭矩传感器额定量程从 100 kN·m 到 300 kN·m 。旋转型型号最大允许转速为 2,000 rpm 到 3,000 rpm。另外，您还可以选择磁学转速测量系统(每转 72/86 脉冲信号)。

产品特点

益处

性价比高，免维护: T40FH 无轴承和滑环
容易使用: 旋转型内置仪表，容易控制，快速获得可靠的测量结果
可靠: 久经考验的 T40 系列产品

关键特性

额定扭矩: 100 kN·m, 125 kN·m, 150 kN·m, 200 kN·m, 250 kN·m, 300 kN·m
额定转速: 从 2,000 到 3,000 rpm
旋转型和非旋转型
无轴承和滑环
轴向短
可选磁学转速测量系统(每转 72/86 脉冲)

T40FH 扭矩传感器参数规范：

Accuracy class

0.1

Torque measuring system (rotating)

Nominal (rated) torque Mnom

kNm

100

125

150

200

250

300

Nominal (rated) rotational speed

rpm

3000

2000

Linearity deviation including hysteresis,
related to nominal (rated) sensitivity Frequency output
For a max. torque in the range:

between 0% of Mnom and 20% of Mnom

≤±0.03

> 20% of Mnom and 60% of Mnom

≤±0.065

> 60% of Mnom and 100% of Mnom

≤±0.1

Voltage output
For a max. torque in the range:

between 0% of Mnom and 20% of Mnom

≤±0.03

> 20% of Mnom and 60% of Mnom

≤±0.065

> 60% of Mnom and 100% of Mnom

≤±0.1

Rel. standard deviation of repeatability,
per DIN 1319, related to the variation of the output signal

Frequency output

≤±0.02

Voltage output

≤± 0.02

Temperature effect per 10 K in the nominal (rated) tempera ture range
on the output signal, related to the actual value of the signal span

Frequency output

≤±0.1

Voltage output

≤±0.1

on the zero signal, related to the nominal sensitivity

Frequency output

≤±0.07

Voltage output

≤±0.07

Nominal sensitivity
(spread between torque = zero and nominal torque)

Frequency output 10 kHz / 60 kHz / 240 kHz

kHz

5/30/120

Voltage output

Sensitivity tolerance
(deviation of the actual output quantity at Mnom from the nominal (rated) sensitivity)

Frequency output

±0.1

Voltage output

±0.1

Output signal at torque = zero

Frequency output

kHz

10/60/240

Voltage output

Nominal (rated) output signal

Frequency output

at positive nominal (rated) torque

kHz

15 1) / 90 2) / 360 3)
(5 V balanced 4))

at negative nominal (rated) torque

kHz

5 1) / 30 2) / 120 3)
(5 V balanced 4))

Voltage output

at positive nominal (rated) torque

at negative nominal (rated) torque

-10

Load resistance

Frequency output

kΩ

≥2

Nominal (rated) torque Mnom

kNm

100

125

150

200

250

300

Voltage output

kΩ

≥10

Longterm drift over 48 h at reference temperature

Frequency output

≤±0.03

Voltage output

≤±0.03

Measurement frequency range, -3 dB

kHz

11) / 32) / 63)

Group delay

<4001) / <2202) / <1503)

Residual ripple

Voltage output 5)

<40

Maximum modulation range 6)

Frequency output

kHz

2.5 ¼ 17.5 1) / 15 ¼ 105 2) / 60 ¼ 420 3)

Voltage output

-12 ¼ +12

Energy supply

Nominal (rated) supply voltage (DC safety extra low voltage)

18 ¼ 30

Current consumption in measuring mode

< 1

Current consumption in startup mode

< 4 (typically 2) 50 μs

Nominal (rated) power consumption

< 10

Maximum cable length

Shunt signal

approx. 50 % of Mnom

Tolerance of the shunt signal, related to Mnom

≤± 0.05

Nominal (rated) trigger voltage

Trigger voltage limit

Shunt signal ON

min. >2.5

Shunt signal OFF

max. <0.7

Torque measuring system (non-rotating)

Accuracy class

0.1

Nominal (rated) sensitivity (nominal (rated) signal range
between torque = zero and nominal (rated) torque)

mV/V

0.63…..1.1 (the sensitivity is specified on the type plate)

Linearity deviation including hysteresis, related to the nom inal (rated) sensitivity (voltage output)
For a max. torque in range:

between 0% of Mnom and 20% of Mnom

≤± 0.03

> 20% of Mnom and 60% of Mnom

≤± 0.065

> 60% of Mnom and 100% of Mnom

≤± 0.1

Temperature effect per 10 K in the nominal (rated) tempera ture range

on the output signal, related to the actual value of the signal span

≤± 0.1

on the zero signal, related to the nominal sensitivity

≤± 0.07

Relative standard deviation of reproducibility (variability) per
DIN 1319, related to the variation of the output signal.

≤± 0.02

Input resistance at reference temperature

1560 ± 100

Output resistance at reference temperature

1400 ± 100

Reference excitation voltage

Operating range of the excitation voltage

2.5 ... 12

Transducer identification

TEDS as per IEEE 1451.4

Rotational speed measuring system

Magnetic scanning and ring gear

Output signals

2 square wave signals 90° phase shifted, 5V TTL/RS-422

Number of pulses per revolution (number of teeth)

Output signal level High

≥3.5

Output signal level Low

≤0.8

Maximum permissible output frequency

kHz

Nominal (rated) torque Mnom

kNm

100

125

150

200

250

300

Radial nominal distance between sensor head and teeth

2.5

Radial working range

1.5 – 3.5

Permissible axial displacement

±2

Permissible magnetic field strength for signal deviations

kA/m

<0.1

General information

EMC
Emission (EME) (as per FCC 47, Part 15, Subsection C)

Emission (EME)(as per EN 61326‐1, Section 7)

RFI field strength

Class B

Immunity to interference (EN 61326-1, Table 2)

Electromagnetic field (AM)

V/m

Magnetic field

A/m

100

Electrostatic discharge (ESD)

Contact discharge

Air discharge

Fast transients (burst)

Impulse voltages (surge)

Conducted interference (AM)

Degree of protection per EN 60 529

IP 54

Reference temperature

°C

Nominal temperature range

°C

+10 ¼ +70

Operating temperature range 8)

°C

-20 ¼ +85

Storage temperature range

°C

-40 ¼ +85

Mechanical shock per EN 60068‐2‐27 9)

Number

1000

Duration

Acceleration (half sine)

m/s2

650

Vibrational stress in three directions per EN 60068-2-6 9)

Frequency range

10 ¼ 2000

Duration

2.5

Acceleration (amplitude)

m/s2

100

Load limits 10)

Torque limit, related to Mnom
11)

kNm

200

400

Breaking torque, related to Mnom
11)

kNm

>300

>600

Axial limit force 12)

230

290

Lateral limit force 12)

110

240

Bending moment limit 12)

kNm

Oscillation width per DIN 50100 (peaktopeak) 13)

kNm

200

400

Upper maximum torque

kNm

150

300

Lower maximum torque

kNm

-150

-300

Mechanical values

Size

BG1

BG2

Torsional stiffness cT

kN×m/rad

119310

228090

Torsion angle at Mnom

degrees

0.072

0.075

Stiffness in the axial direction ca

kN/mm

1855

3900

Stiffness in the radial direction cr

kN/mm

3340

4910

Stiffness during the bending moment round a radial axis cb

kN×m/rad

25495

65900

kN×m/ degrees

445

1150

Maximum deflection at axial limit force

0.1

Additional maximum radial deviation at lateral limit force

0.1

Nominal (rated) torque Mnom

kNm

100

125

150

200

250

300

Additional maximum deviation from plane parallelism at bending moment limit

0.5

Balance quality level per DIN ISO 1940

G 6.3

Max. limits for relative shaft vibration14) (peak-to-peak)
Undulations in the connection flange area, based on ISO 7919‐3

Normal operation (continuous operation)

μm

s(p p) = 9000
- n

(n in rpm)

Start and stop operation/resonance ranges (temporary)

μm

s(p p) = 13200
- n

(n in rpm)

Mass moment of inertia of rotor Jv
(around the rotary axis; does not take flange bolts into account)

kg×m2

2.0

5.15

Proportional mass moment of inertia for the transmitter side (side of the flange with external centering)

% of Iv

Max. permissible static eccentricity of the rotor (radially) to
the center point of the stator

without the speed module

±2

with rotational speed module

±1

Permissible axial displacement15) between rotor and stator

±2

Weight

Rotor

142

Stator

2.1

2.3

尺寸为40fh的扭矩传感器与转速测量系统，选项4，代码SU2, DU2, HU2 T40FH 100kNm - 150kNm

T40FH转矩传感器(非旋转)，选项4，代码PNJ T40FH 100 kNm - 150knm

T40FH 200kNm - 300kNm

HBM 扭矩传感器一直在业界享有盛誉。从1958 年开始, HBM 扭矩传感器(扭力传感器，转矩传感器)一直是行业标准，广泛应用于发动机和零部件测试台架，生产监控和实验室扭矩标定。

HBM 作为全球首家数字扭矩传感器的制造商，产品包括扭矩传感器 (扭力传感器，转矩传感器), 以及用来测量反作用力的非转动式扭矩传感器 (扭力传感器)以及用于扭矩传感器 (扭力传感器) 的各种联轴器和测量仪表。HBM 拥有滑环和非接触式信号传输专利技术，额定测量范围从 0.1 N·m 到 2 MN·m, 额定转速最大到40,000 rpm。

DKD (德国校准服务机构) 的首家标定实验室 1977 在 HBM 成立。1990年7月13日，HBM 被 DKD 授予进行扭矩标定，多年以来， HBM 一直是德国唯一一家可进行扭矩标定服务的实验室，并负责制定国家标准.

T12,T40FM,T40,T40B 是新一代数字扭矩传感器。其采用特殊模数转化方法，不仅带有错误识别功能，对电磁环境不敏感，并且具有更高的采样率和更高的精度。

文章版权备注

来源：仪器仪表网阅读：1,005

文章版权归 仪器仪表网 所有 购买产品联系：15767855089（QQ/微信/手机同号）

文章链接：https://www.shajiangguan.cn/torque/hbm-niuju/4233.html

未经授权，禁止任何站点镜像、采集、或复制本站内容，违者通过法律途径维权到底！

下面这些产品，一样很精彩哟！

产品繁多，总有一款适合你，更可来图来样定制生产，选型！

T40B扭矩传感器转矩传感器 T40B扭力传感器-德国HBM

T40B 以高精度、再现性和鲁棒性而著称，非常适合用于静态和动态扭矩测量。包括滞后和高温稳定性，扭矩传感器具有 0.03% 的线性精度。可内置磁学转速测量...
CFTplus压电力传感器-高精度，高动态

在工厂，CFTplus系列压电力传感器已进行了三个量程段 (1%, 10%和100%)的校准，因此安装后可立即使用，无需进行现场校准。一般来说，压电原理传感器的...
MCS10 多分量传感器-德国HBM

沿不同轴同步测量力和扭矩。3维力传感器! 来自 HBM 的 MCS10 多分量传感器能够同步测量沿三个轴或坐标的力 (Fx, Fy, Fz)。六分量传感器...
T12HT 扭矩传感器

T12HT 扭矩传感器，适用于高达1.5 MN·m 极高扭矩测量 T12HT 扭矩传感器专门针对大扭矩应用设计，高精度，并可大幅提高生产力和效率。其采用无线供电，无线...
TTS 扭矩扳手传感器-德国HBM

TTS 扭矩扳手是用来检查和标定扭矩设备.其符合标定的所有要求(DKD-R 3-8 中所描述). 产品描述由于扭矩扳手会产生特殊扭矩, 因此 TTS 弯矩的极限阻值...
TN 扭矩（扭力/转矩）传感器-德国HBM

TN 扭矩传感器是一种非转动传感器,专门用于传感器标准或作为实验室的比对传感器其有极高的极高的精度和稳定性. TN 扭矩传感器经常作为国家计量院的...
TB1A 扭矩（扭力/转矩）传感器-德国HBM

TB1A 扭矩比对测量盘采用HBM的专利技术-剪应力扭矩测量采用轴向剪应力臂的测量体有很小的尺寸和具有很高的刚性，可以抵御弯矩等其他负载。简单,...
TB2 扭矩（扭力/转矩）传感器-德国HBM

TB2 比对扭矩传感器具有非极高的精度，其带有 DKD标定证书，按照 DIN 51309 或 EA 10-14标准精度等级达到 0.05。标准要求在 40% 到 100% 的额定量程范围...
t5 扭矩（扭力/转矩）传感器-德国HBM

t5 扭矩（扭力/转矩）传感器（特点）任何旋转方向扭矩的测量标称扭矩10 NV/m, 20 NV/m, 50 NV/m, 100 NV/m, 200 NV/m 无滑动摩擦接头的圆柱轴...
T4A 扭矩（扭力）传感器-德国HBM

T4A 扭矩传感器主要用于保证扭矩质量符合国家标准而进行的追溯性测量。 T4A 扭矩传感器的连接通过手动扳手或电动扳手来进行，而不能用气动扳手。 ...
T22 扭矩（扭力）传感器-德国HBM

T22 扭矩传感器: 扭矩测量最高达 1 kNm 基于应变的 T22 扭矩传感器采用非接触式传输技术，量程从 0-0.5 Nm 最大到 0-1 kNm。结构紧凑，适合旋转和非旋...
T21WN 扭矩传感器-德国HBM

T21WN 扭矩传感器: 扭矩测量最高到 200 Nm 基于应变的 T21WN 扭矩传感器采用非接触式方式进行信号传输和供电。适用于非旋转和旋转部件的较低扭矩静态...
T10F 扭矩传感器-德国HBM

T10F 扭矩传感器: 额定扭矩从 50 N·m 到 10 kN·m 其非常紧凑的设计占有非常小的空间。高侧向的防护允许连接轴直接与法兰连接，无须其它支撑轴，并且可...
T40MAR扭矩传感器-用于确定负载信号-德国HBM

用于确定负载信号的T40MAR认证传感器高精度 T40MAR 扭矩传感器可以从船舶发动机中获取负载信号，从而可以更好地控制它们。负载信号测定可通过传动系...
T40HS高速扭矩传感器-德国HBM

T40HS: 高速扭矩测量，极小的测量不确定性 T40HS 专门为高速扭矩测量应用设计，更短并且节省空间，转速高达 45,000 rpm. 更短的设计保证其具有更高...