• 290 likes • 395 Views
Each D type is initiated simultaneously by means of a common clock line. 4 unused states, ie 001,011,101,111. S7 111. S6 101. S5 011. S4 001. S0 000. S3 110. S1 010. S2 100. B. A.C. B+C.
E N D
Each D type is initiated simultaneously by means of a common clock line.
4 unused states, ie 001,011,101,111 S7 111 S6 101 S5 011 S4 001 S0 000 S3 110 S1 010 S2 100
B A.C B+C
Remove the two NOT gates and use the relevant Q output for A and B 0 1 0 1 1 0 1 0 1 1 1 1 0 1 S0 (00)
PORTB,1 half PORTB,1 half btfss PORTA,0 goto loop movf Wtemp,0 retfie
In the event of an interrupt being initiated it immediately stores the contents of the working register in the temporary register Wtemp. This is because the working register may be used during the ISR and hence its contents changed.
Y X . Y .Z + X . Y . Z
Use 7 comparators inputting into the priority- encoder, one comparator inputting into the overflow indicator, 8 resistor voltage divider and a 3 bit output.
VLS= 2.3-0.7 = 1.6V Input impedance =hfeRL=50 X 8= 400 ohms Use a resistor divider network to provide positive DC bias Use a push pull power amplifier which will reduce the effect of distortion but still produce crossover distortion
VL( approx) = VZ(1 + RF/R1), Max Value VL=7.5(1+1/3) = 9.98V ( approx 10V) 10V 7.5V VS increases to 13V. Voltage across resistor increases but voltage across zener remains at 7.5V ie output voltage remains unchanged.
A B The dummy gauge is included to compensate for any changes in ambient temperature conditions.
VA = ( 12/318.06 +340) X340 = 6.20V VB = (12/680)X340 = 6V V1= 6.00-6.20 = 0.20V Gain = P/75K, P=75Kx50 =3750K P=3750K 75K R= 3750K Vout = +0.2 X 50 = =10v
The thyristor must be Forward Biased A positive gate pulse of sufficient voltage must be applied.
S2 24V 0V 0V 24V 0V 24V
VR= 24 -2 = 22V R = VR/Ig = 22/60mA = 367ohms
The de-coupling capacitors remove any unwanted DC from the input of the amplifier .
√2500 = 50 √2500 =50 BW =GBWP/50 = 1.6x106/50= 32KHz
Max gain on channel 1 =10, 100K/R1 Max gain on Channel 2 =100K/R2 RF= 100K R1 10K Vout R2 20K Gain on each channel is a max when the variable resistor are at minimum value ie = 0 ohms
Fb=1/(2∏RC )=133Hz Gain at frequencies above the break frequency =75/15 =5