NPN DC-BIAS is a little utility designed to calculate various voltages and currents of a simple voltage divider bias NPN bipolar transistor amp. The following is calculated: IB, IC, IE, VE, VB, VC, VCE and detection of Saturation or Cutoff.
The user can alter the VCC, VBE, transistor beta and any of four resistor values R1, R2, RC and RE by picking the transistor value from a standard-value resistor table or manually entering the value.
NPN DC-BIAS Free Download (2022)
1. VCC to VBE (baseline) – pick the transistor base to emitter resistor value and VBE value (do not alter VBE). (EX: 100K * 1K = 10V)
2. R2 to R1 – pick the transistor collector to emitter resistor value and R1 value (do not alter R1) – (EX: 100K * 10K = 10V)
3. R1 to RE – pick the transistor collector to emitter resistor value and RE value (do not alter RE). (EX: 100K * 100K = 10V)
4. R1 to RC – pick the transistor collector to base resistor value and RC value (do not alter RC). (EX: 10K * 1K = 10V)
5. VBE to 5V (Baseline) – pick the transistor base to emitter resistor value and VBE value (do not alter VBE). (EX: 10K * 5K = 5V)
6. RC to RE – pick the transistor collector to emitter resistor value and RE value (do not alter RE) (EX: 5K * 100K = 5V)
7. R2 to R1 – pick the transistor collector to emitter resistor value and R1 value (do not alter R1) (EX: 5K * 10K = 5V)
8. R1 to RE – pick the transistor collector to emitter resistor value and RE value (do not alter RE). (EX: 5K * 100K = 5V)
9. R1 to RC – pick the transistor collector to base resistor value and RC value (do not alter RC). (EX: 1K * 5K = 5V)
10. VCE to 3V (Baseline) – pick the transistor collector to base resistor value and VCE value (do not alter VCE). (EX: 1K * 3K = 3V)
11. RE to R1 – pick the transistor emitter resistor value and R1 value (do not alter R1) (EX: 3K * 10K = 3V)
12. RE to RC – pick the transistor emitter resistor value and RC value (do not alter RC). (EX: 1K * 3K = 3V)
13. VCE to RE – pick the transistor collector to emitter resistor value and RE value (do not alter RE). (EX: 1K * 1K = 3
NPN DC-BIAS Crack+ With License Key
According to the documentation:
“Very simple current sensor:
1.
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NPN DC-BIAS Crack + Activator
–Simple voltage divider
–npn, pnp, npn/nmos/pnmos/mos
–adjust bias point of divider for most transistors (do not adjust base pin)
–adjust base voltage (add VBE to VBE if not enough)
–detects cutoff and saturation from collector to base voltage difference
–calculates collector current from point of detection
–calculates IBE, IBEb, IB, IBb, IE, IEb, IC and IEb
–absolute values are displayed for collector current, collector voltage, base to collector voltage difference and base to emitter voltage difference.
–can calculate diode voltage/current
–uses constant current source (3.3 or 5 or 5V) for calculation of base current (ideal for calculating transistor beta)
–uses constant voltage source (3.3V) for calculation of collector current
–increases/decreases any single resistor value by clicking on the value
–Use to help analyze/calculate voltage divider
–Can be used to analyze very small transistors for voltage divider setup or to calculate base current for known voltage/current source
–Can be used to calculate VCE, VCEb, VBE, VBEb, IB, IC and IE for known biasing conditions/voltages
–Can be used to calculate circuit paramter changes based on certain bias conditions
–Can calculate saturation currents (it is important to know this current when constructing a logic IC like op amps or comparators)
–can calculate collector current when transistor is a part of a current mirror (there are many apps which can calculate this when the mirror voltage is known)
–Can calculate collector current when transistor is part of a voltage divider (there are many apps which can calculate this when the divider voltage is known)
–Can calculate collector current when transistor is part of a voltage divider when the collector voltage is known (since the transistor beta can be figured out in the calculation by using the base voltage of the transistor at the collector)
–Can calculate IBE, IBb, IE, IEb, IC and ICb
–IBE/IBb/IE/IEb/IC/ICb are can be used for collector current calculation for transistors with collector-to-emitter current ratio other than unity
–IBEb/IEb/IEb/IEb/IC/ICb are
What’s New In NPN DC-BIAS?
After selecting the transistor (the table is ASCII read-only) and the desired parameters as shown in FIG. 1, the DC-BIAS values can be calculated and also the transistor block diagram is drawn. The table is ASCII read only, so the user can either enter the desired values or to load the default values from a text file for desired values. The default values are the following:
Table 1: Input defaults for NPN DC-BIAS
R1 = R2 = 1.0k
RC = RE = 1.0k
Beta = 2.0
These default values are used for every transistor value except for this value:
Transistor
3.2k
3.5k
5.0k
10k
20k
50k
100k
Type
New values are calculated for each transistor, except for 3.2k and 10k where default values are used. Default values are used when the user does not enter any value and the Transistor is set to 3.2k or 10k. For all other transistor types, a new value for the four resistor values and Beta is calculated, and the transistor block diagram drawn.
In this example, the default values are used for an NPN DC-BIAS calculation, and the results are drawn on the graph.
DC-BIAS Calculator Flow:
After selecting the appropriate resistor values and the type of transistor, NPN DC-BIAS calculates the desired value. If, for example, the user selects R1, R2, RE and the alpha (.beta.) in step 20, NPN DC-BIAS calculates the value for:
i. IB=2.34E-12A
ii. VC=1.96E-12A
iii. VCE=0.74V
iv. VCB=0.79V
As shown in FIG. 2, the user can then set the VCC, VBE, transistor beta and calculate a new Beta value. For example, in step 30, the new Beta value for the example transistor shown in step 20 is 1.695. Also the VCC value can be changed in step 31, so that Vcc is set to 3.6V, for example. For example, if the VCC is set to 3.6V, the NPN DC-BIAS calculation will be performed again.
The user then selects the new Beta in step 32, and the calculation for IB, VC, V
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