Low-Cost Prototyping For VHF Circuits

Below 10 MHz, the realization of engineering models is fairly straightforward and not critically dependent on pc-board layout. At VHF, parasitic circuit elements and spurious coupling can wreak havoc with attempts to achieve performance at low cost without design iterations. In this article, a passive VHF low-pass filter is presented that can be q
Low-Cost Prototyping For VHF Circuits - schematic

uickly designed, constructed, and tested. The techniques discussed also apply to active circuits. The seven-pole low-pass filter has been designed for a passband ripple of 0. 003 dB at a nominal 3-dB cutoff frequency of 74 MHz ( Fig. 1 ). The source and load impedances are 50 ©. The circuit elements are shown in Table 1. The low-pass filter was constructed on a microstrip transmission line on a single-clad vector board. The vector board is mounted on male/female spacers in a Bud CU-123 die-cast aluminum box. The input and output connectors are Pomona 2451 BNC panel jacks. The vector board uses a 0. 062-in. thick epoxy-glass substrate with a hole grid of 0. 1 in. The microstrip conductor pattern is obtained using copper-foil shielding tape ( Fig. 2 ), which can be cut using scissors and an Xacto  knife. The microstrip ground pattern uses the copper-clad side of the vector board ( Fig. 3 ). Filter components are soldered to the conductor and ground patterns in different ways. The interior inductors L3 and L5 are soldered to the conductor pattern via surface mounting. The exterior inductors L1 and L7 have one lead surface-mounted to the conductor pattern, while the other lead is soldered to the BNC connectors. To effectively absorb stray lead inductance, the number of turns for L1 and L7 has been reduced from six to five (all toroids are from Micro Metals). The shunt capacitors C2, C4, and C6 each have one lead surfacemounted...

Leave Comment

characters left:

New Circuits