The TDA1010 is a monolithic integrated class-B audio amplifier circuit in a 9-lead single in-line (SIL) plastic package. The device is primarily developed as a 6 W car radio amplifier for use with 4 Wand 2 Wload impedances. The wide supply voltage range and the flexibility of the IC make it an attractive proposition for record players and tape recorders with output powers up to 10 W.
Thursday, 1 April 2010
50W Power Amplifier
Here is Power Amplifier 50W Circuit,Use IC STK1050. OCL Class AB Amp.
Voltage supply +35V , -35V 2-3A / Ch
Tuesday, 30 March 2010
bending movment
On the Design of Damaged Steel Columns
• Emeritus Professor Nick Trahair
• Kourosh Kayvani (Connell Wagner)
This project explores a number of situations where columns with out-of-tolerance crookedness or which have been damaged may still be designed, despite the implications of many codes that they must be replaced, and has suggested rules for their design. The case of a column whose crookedness is out-of-tolerance is first examined, and two design methods are suggested. In the first method, the column is treated in a similar way to that used for the basis of the BS5950 column design method by allowing for the excess crookednesses. In the second method, the column is designed as a straight beam-column with design moments equal to those resulting from the first-order analysis of an imperfect structure whose geometry includes the excess crookednesses.
Following this, the case is considered of a column damaged by unexpected bending which leaves an out-of-tolerance permanent set. It is concluded that the residual stresses caused by the damaging bending moments can be ignored, and the damaged column can be designed for its increased crookedness by using either of the methods proposed for columns with out-of-tolerance crookedness. The straightening of the damaged column was also considered. It was found that the residual stresses which follow relaxation after straightening can also be ignored and the column designed in the usual way.
Finally, the case is analysed of a force-fitted column which has excessive crookedness locked in during its connection to other members of a structure. It is found that the force-fitting deflection can be regarded as an initial crookedness, so that the column can be designed as an out-of-tolerance column.
Trahair, NS and Kayvani, K 'Capacities of Steel Columns with Excessive Crookedness', The Structural Engineer, 84 (4), 2006, pp 37 - 41, and School of Civil Engineering Research Report R 846.
• Emeritus Professor Nick Trahair
• Kourosh Kayvani (Connell Wagner)
This project explores a number of situations where columns with out-of-tolerance crookedness or which have been damaged may still be designed, despite the implications of many codes that they must be replaced, and has suggested rules for their design. The case of a column whose crookedness is out-of-tolerance is first examined, and two design methods are suggested. In the first method, the column is treated in a similar way to that used for the basis of the BS5950 column design method by allowing for the excess crookednesses. In the second method, the column is designed as a straight beam-column with design moments equal to those resulting from the first-order analysis of an imperfect structure whose geometry includes the excess crookednesses.
Following this, the case is considered of a column damaged by unexpected bending which leaves an out-of-tolerance permanent set. It is concluded that the residual stresses caused by the damaging bending moments can be ignored, and the damaged column can be designed for its increased crookedness by using either of the methods proposed for columns with out-of-tolerance crookedness. The straightening of the damaged column was also considered. It was found that the residual stresses which follow relaxation after straightening can also be ignored and the column designed in the usual way.
Finally, the case is analysed of a force-fitted column which has excessive crookedness locked in during its connection to other members of a structure. It is found that the force-fitting deflection can be regarded as an initial crookedness, so that the column can be designed as an out-of-tolerance column.
Trahair, NS and Kayvani, K 'Capacities of Steel Columns with Excessive Crookedness', The Structural Engineer, 84 (4), 2006, pp 37 - 41, and School of Civil Engineering Research Report R 846.
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