Vetek Scales - Personal and professional scales.
Owner's Manual for VETEK models including: A2P-D2 Load Cell Amplifier, A2P-D2, Load Cell Amplifier, Cell Amplifier, Amplifier
Weighing transmitter 4-20mA, 0-10V, DIN, 84x71x67.2mm, compatiblewith IO-LINK Balluff's - Vetek
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DocumentDocumentA2P-D2 Load Cell Amplifier Product Manual (v1704) TABLE OF CONTENTS 1. Introduction 2 2. Installation and warnings 2 3. Connection Diagram 2 4. Specifications 3 5. Output Ports 3 6. Excitation Output 4 7. Gain 4 8. Operations 5 · Gain Selection · Zero Calibration · Span Calibration 9. Maintenance 6 10. Troubleshooting 6 11. Illustrations 7 1. Introduction Thank you for choosing Anyload A2P-D2 load cell amplifier. The A2P-D2 strain gage amplifier provides load cell and transducer signal conditioning. It is designed for industrial signal conversion that amplifies the mV signal from load cell output into a 4 to 20mA or 0 to 10V signal. The A2P-D2 strain gage amplifier is a DC powered amplifier and can drive up to 2 x 350 load cells connected directly. It can also drive up to 4x350 load cells or 8 X 350 load cells through a junction box. This amplifier is equipped with individual adjustable resistors. It is housed in a PVC enclosure and can be installed on a standard rail channel. The manual here provides the installation, operation and calibration procedures of the product. 2. Installation and Warnings To avoid damaging the input interface, it is recommended to complete the wirings especially in the input terminals prior in applying or switching on the power supply. The energized power supply may destroy the input terminal slots once it sparks. For safety purpose, connect first the positive power terminal from your power supply then the negative terminal. In this way, you may avoid to accidentally short your power supply. Only simple tools like small size slotted screw driver and Philips screwdriver are required for connecting cables during installation and calibration. 3. Connection Diagram Red: EXC+ Black: EXCGreen: SIG+ White: SIG- Figure 1.Connection Diagram 4. Specifications Power Supply: 24V DC Input Signal: 0±36mV Output Signal: 4 to 20mA or 0±10V Maximum Power Consumption: 3.6W Operating Temperature: -10°C-50°C / 14°F - 122°F 5. Output Ports As shown in the Figure 1 (Connection Diagram), the left terminal (Io), outputs positive current and the right terminal (Vo), outputs positive voltage. The middle terminal (-) is the common connection for negative current or negative voltage. Only voltage terminal output can provide complementary signal like negative voltage or positive voltage output. 6. Excitation Output Refer on Figure 1, you may slide the switch for (EXC) from either 5V or 12V. The A2P-D2 amplifier can drive a load cells of either 5V or 12V excitation. 7. Gain The A2P-D2 is applicable for load cells with different sensitivity. It supports 4 ranges of Gain. The user can select suitable gain for different load cell sensitivity, excitation voltage and output signal by setting the 4-bit DIP switch, by adjusting the Zero and Span potentiometer and by configuring the slide switch (EXC), respectively ( refer on Figure 1 ). Table 1 below shows the suggested A2P-D2 settings and Table 2 shows the DIP switch and Gain Range. Table 1. Suggested A2P-D2 Settings Output Signal Sensitivity Range Excitation Gain Switch ( mV/V) Voltage (V) Number 1.30-4.20 5 4 0-10V 1.35-2.60 1 ( 0±10V) 2.68-3.90 12 2 0.54-1.89 4 1.51-2.91 1 2.96-4.31 5 2 4-20mA 0.61-2.02 0.66-1.26 4 1 1.30-1.89 12 2 1.67-2.25 3 1.56-3.02 1 3.09-4.54 5 2 0-5V 0.64-2.13 4 ( 0±5V) 0.68-1.32 1 1.35-1.97 12 2 1.74-2.36 3 Note 1: When applicable, it is recommended to choose 12V excitation voltage and configure on the Gain switch either number 1, 2 or 3. Table 2. Gain Switch Settings 4-bit DIP Switch DIP Switch Number 1 GAIN 2 3 4 Gain Range 153-303 103-153 86-118 217-753 Note 2: If the Gain setting is no achieved during calibration, change the Gain switch settings as shown in Table 2 and recalibrate. 8. Operations · Gain Selection 1. Connect the load cell , set the slide switch EXC and select load cell excitation voltage 2. Set the suggested excitation voltage according to the load cell's sensitivity. Set Gain switch to select Gain range, refer to Table 2 · Zero Calibration 1. Remove weight from load cell or scale. If having a tare, keep the tare device like hook or plate 2. If Current Signal Output is required, set the output current to 4.00mA by adjusting the ZERO potentiometer ( refer to Figure 1). 3. If Voltage Signal Output is required, set the output voltage to 0.00V by adjusting the ZERO potentiometer ( refer to Figure 1 ). Note 1: When adjusting the potentiometer to set zero, carefully rotate the potentiometer's screw. For high accuracy, it is recommended to set zero to 4.00mA or 0.00V. Note 2: The tare weight shall not exceed 20%F.S ( full scale ) of load cell or scale. Note 3: When it generates a complementary voltage signal output, remove the load first then perform Zero calibration · Span Calibration 1. Put a load on the load cell or scale to at least 80% of its maximum capacity. It is highly recommended to put a load of 100% of its maximum capacity. 2. If Current Signal Output is required, set the output current to 20.00mA (for 100% of max. capacity load ) by adjusting the SPAN potentiometer ( refer to Figure 1 ) 3. If Voltage Signal Output is required, set the output voltage to 10.00V ( -10.00V ) for 100% of max. capacity load or 5.00V ( -5.00V ) by adjusting the SPAN potentiometer ( refer to Figure 1 ). If the gain range is not suitable after the Span calibration ( steps above ). Change the Gain range settings ( 4-bit DIP switch ), and recalibrate Note 1: For high accuracy of Span output, it is recommended to repeat the process from Gain Selection up to Span Calibration. Note 2: Potentiometer IN1 & IN2 are used to adjust in multiple load cells application. When multiple load cells are connected, the maximum difference in sensitivity between each load cell shall not exceed 3%. 9. Maintenance · For long term usage, accurate and stable output, use reliable DC power supply · Do not adjust the SPAN potentiometer ( of calibrated amplifier ) by an inexperienced personnel · It supports maximum of 8 load cells of 350 Ohms resistance or multiple load cells with equivalent power consumption 10. Troubleshooting For long term usage, accurate and stable output, use reliable DC power supply No output from the amplifier: Check all wire connections and the DC power supply. Output signal is abnormal: Re-calibrate according to Section 5, Calibration. Problem cannot be resolved: Contact supplier 11. Illustrations Marks on this manual are defined as below: Mark +DC24 GND ZERO Io Vo IN-1 +E +S IN1 Definition Positive 24V DC supply Ground Mark DC24- EXC Zero Potentiometer SPAN Positive Current Output Positive Voltage Output Load cell 1 connection Positive excitation GAIN IN-2 -E Positive signal output -S Potentiometer for IN2 load cell 1 Definition Negative 24V DC supply Switch of Excitation Span Potentiometer Common negative Gain Selection Load cell 2 connection Negative excitation Negative signal output Potentiometer for load cell 2 Vetek Weighing AB Website: www.vetek.com Email: info@anyload.com