Instrumentation bridge knowledge
Ammonium dihydrogen phosphate (NH4H2PO4) is a white crystalline solid that is soluble in water. It is commonly used as a fertilizer, flame retardant, and food additive. It is also used in the production of ceramics, pharmaceuticals, and detergents. Ammonium dihydrogen phosphate is a source of both nitrogen and phosphorus, two essential nutrients for plant growth. It is often used in combination with other fertilizers to provide a balanced nutrient supply to crops. Ammonium dihydrogen phosphate is also used as a flame retardant in plastics and textiles, as it releases ammonia when heated, which dilutes the combustible gases and inhibits combustion. In the food industry, it is used as a leavening agent in baking powders and as a pH regulator in soft drinks.
Ammonium dihydrogen phosphate (ADP) is a colorless, crystalline compound with the chemical formula NH4H2PO4. It is commonly used as a fertilizer and as a food additive. ADP is also used in the manufacturing of ceramics, electronics, and other products.
ADP is soluble in water and has a slightly acidic pH. It is a highly reactive compound and can react with strong bases to form ammonium phosphate. ADP is also a source of phosphorus and nitrogen, which are essential nutrients for plant growth.
In addition to its use as a fertilizer, ADP is used in the production of ammonium polyphosphate, which is used as a flame retardant and in the manufacturing of plastics. ADP is also used in the production of specialty glasses and in the preparation of buffer solutions for laboratory use.
ADP has been classified as a hazardous substance by the United States Environmental Protection Agency due to its potential to cause harm to human health and the environment. It can cause skin and eye irritation, and inhalation of the dust can cause respiratory problems. ADP can also contribute to eutrophication, which is the excessive growth of algae in water bodies, leading to oxygen depletion and harm to aquatic life.
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It is understood that the bridge is used to measure a variety of tools, such as: resistance, inductance, capacitance and so on. The bridge is a circuit composed of four branches, so each branch is called the “arm†of the bridge. So what little knowledge about the bridge, the following simple to say.
How to use a single-arm bridge:
1, first open the galvanometer lock (inside and outside), adjust the zero adjuster to zero.
2. Connect the measured resistance to the "" position.
Requires thicker, shorter connecting wires and scrapes the paint film. Tighten the connectors to avoid using clips. Poor connection of the connector will make the balance of the bridge unstable and may damage the galvanometer in severe cases.
3. Estimate the size of the resistance to be measured and select the appropriate bridge arm ratio so that the fourth gear of the comparison arm can be fully utilized. This makes it easy to balance the bridge and guarantees 4 significant digits of the measurement result.
4, first press the power button B, (lock) and then press the galvanometer button G (point).
5. Adjust the comparison arm resistance so that the galvanometer points to zero and the bridge is balanced. If the pointer indicates "+", the resistance of the comparison arm needs to be increased and the needle is pointed at "-", then the resistance of the comparison arm needs to be reduced.
6. Read data: Compare arm ratio arm = measured resistance 7. After the measurement is completed, disconnect the galvanometer button, disconnect the power button, and then remove the measured resistance, then lock the galvanometer lock. Damage to the galvanometer during handling.
The value of R2, R3, and R4 is adjusted by the bridge. When the bridge is balanced, R1 = R2 (R3/R4) and the measured resistance can be measured. From the figure we can see: R1 measured resistance includes the lead resistance and contact surface contact resistance, so the actual resistance should subtract lead resistance and contact surface contact resistance, the smaller the measured resistance, the greater the error of the lead, so the single arm The bridge is commonly used to measure the resistance of more than 1 euro, the general range is 1 ~ 99990 ohms. For the switch contact resistance is generally in the micro-European class, should not use this bridge, because the lead resistance is milliohm level, can not be measured, this time you can use dual-arm bridge.