Service hotline
+86 0755-83975897
Release date:2023-06-14Author source:KinghelmViews:1234
Mr. Zhang Wujun is an expert in the field of information technology with rich experience and outstanding achievements. His career spans from the industry to the civilian sector, and he has participated in or led the design and development of multiple projects. His most significant recent achievement is his participation in the planning and design of the main scheme for the Shenzhen Metro Communication Engineering. As a technical consultant for Shenzhen Kinghelm Electronics Co., Ltd., Mr. Zhang has extensive professional knowledge and practical experience in the field of communication electronics. He participated in the wireless system design for the first phase of the Shenzhen Metro project and served as a technical representative, making contributions to the selection of CDMA technology. He also designed the internal monitoring and television subsystems for a surface warship, which was reported by the central media and made contributions to China’s industry. Mr. Zhang also served as the chief technical consultant for the International Intelligent Building magazine for many years and has won the Excellent Paper Award from the Shenzhen Electronics Society multiple times. His contributions and achievements in the fields of communication electronics and information technology have been widely recognized and praised. Now, let’s take a look at Mr. Zhang Wujun’s analysis of several indicators and their definitions and significance.
Mr. Zhang Wujun (first person on the top right)
一、Decibel (dB)
The dB is an abbreviation of the English word “decibel,” which is one-tenth of a bel. The “bel” is named after the distinguished scientist Alexander Graham Bell. Bell obtained the patent for the invention of the telephone in 1876 and made significant breakthroughs in the application and development of the telephone (the world-renowned Bell Labs also originated from this). Therefore, when using the dB symbol, the “B” should be capitalized (B is a name).
(Similarly, Newton, Gauss, Faraday, Henry, Ohm, Volt, Ampere, Watt, and other units of force and electricity are named after people.)
Since the “bel” unit is relatively large and inconvenient to use, the more commonly used unit is one-tenth of a bel, which is the decibel. The decibel in electrical engineering comes from acoustics.
1.About Decibels in Acoustics (logarithmic relationship):
2.Definition of Decibel (dB)
The dB is a unit used to express the comparison relationship between two physical quantities of the same kind and with the same unit. It represents the ratio of two power or voltage/current values (or two sound pressure values). The decibel was originally used to measure the relative loudness of sound. In the early days of telephone engineering, the dB was used to measure the power ratio of two electrical signals.
Specific definition (logarithmic expression):
When using current/voltage as physical quantities:
Decibel is a logarithmic expression of “ratio” and has no physical unit. 1 dB is similar to “one, ten, hundred, thousand, ten thousand” and is a “multiple” unit.
The two definitions above may seem inconsistent, but in fact, there are two definitions precisely to ensure consistency, because P=U2/R or P=I2R.
Questions:
1.Assuming P1 is 10 times P0, what is the conversion to decibels? (+10 dB)
2.Assuming P1 is 100 times P0, what is the conversion to decibels? (+20 dB)
3.Assuming P1 is 1 times larger than P0, what is the conversion to decibels? (+3 dB)
4.Assuming P1 is 1 times smaller than P0, what is the conversion to decibels? (-3 dB)
The decibel value of sound is specific, similar to dBm in electronics, defined as the ratio of noise source power to reference sound power (logarithmic expression).
3.Using dB to express signal amplification or attenuation
When calculating the gain or loss in a signal chain, the original multiplication and division relationship becomes an addition and subtraction relationship (simplifying design calculations).
In analog circuits, engineers use the cumulative addition and subtraction of decibels of each component to replace the cumulative multiplication and division of the amplification or loss/attenuation values of each component.
The total amplification factor of an electronic system is often several thousand, tens of thousands, or even hundreds of thousands. A radio, from the signal received by the antenna to the RF amplification, demodulation, and speaker amplification, needs to be amplified by about 20,000 times. When expressed in decibels, the value is much smaller.
4.Applications of dB
A. Describing the specific value of a signal. We use 1mW as a fixed reference value to replace P0 in the above formula, so we can use dBm (where m means relative to 1mW) to describe the specific power of P1. A signal of 0dBm is 1mW.
B. Gain. As mentioned above, dB represents the comparison relationship between two physical quantities of the same unit. After passing through an amplifier or attenuator or a transmission line, the signal will be amplified or attenuated, becoming stronger or weaker. The decibel value obtained by comparing the values before and after is the gain (positive for amplification and negative for attenuation) [Note: when talking about gain, it is dB, not dBm].
C. In the figure below, the power at point F is 400 times that at point E. We say that the gain of this amplifier is 26dB. After being attenuated by half through resistor R (gain of -3dB), the gain of point G relative to point E is 23dB.
------Multiplying by 400 and then dividing by 2, the decibel calculation formula is (+26dB-3dB=23dB).
For example, 30dBm + 20dB = 50dBm, which means 1 watt x 100 times equals 100 watts; 100 watts ÷ 100 times is 1 watt; 100 watts ÷ 1 watt is 100.
二、Signal-to-Noise Ratio
Signal-to-Noise Ratio (SNR) is the ratio of the effective power of the signal to the effective power of the noise (generally expressed in logarithmic form), with units of dB.
SNR = 10 lg(PS/PN), where PS and PN represent the effective power of the signal and noise, respectively.
When converted to a comparison relationship of voltage amplitude, SNR = 20Lg(VS/VN), where VS and VN represent the “effective values” of the signal and noise voltage, respectively.
Whether at the input or output end, a higher SNR is better!
Kinghelm GPS/External Antenna Promotional Brochure
Copyright © Shenzhen Kinghelm Electronics Co., Ltd. all rights reservedYue ICP Bei No. 17113853