DESCRIPTION. The HCFB is a monolithic integrated circuit fabricated in Metal Oxide Semiconductor technology available in DIP and SOP packages. Data sheet acquired from Harris Semiconductor. SCHSC − Revised October The CDB types are supplied in lead hermetic dual-in-line. CDB datasheet, CDB pdf, CDB data sheet, datasheet, data sheet, pdf, Texas Instruments, CMOS Presettable Divide-By-N Counter.

Author: Daim Kazira
Country: Trinidad & Tobago
Language: English (Spanish)
Genre: Music
Published (Last): 10 March 2009
Pages: 101
PDF File Size: 17.47 Mb
ePub File Size: 5.18 Mb
ISBN: 280-8-74050-410-1
Downloads: 86453
Price: Free* [*Free Regsitration Required]
Uploader: Shakasa


Sorry for the schematic, I drew it up in MSPaint and it has been a while since I’ve drawn a schematic. I made it mostly for driving microsequencers at “triplet” rates. If I datasgeet up making more of these, do you know if there’s a equivalent for the ?

Dataxheet 74LS08 has more output drive with a slightly different pin out. You could add isolating diodes so that you do not have that worry. Your arduino midi interface is actually next on the build list.

A selector switch would’ve been a lot better than a dip switch, but it was readily available. You’re right about the datasheet, I missed the dot on xd4018b tip of the gate, mea culpa.

Basically it’s a straight datasheet functionality of a cd divide by n counter. If you want to be more flexible, a simple atmega P chip can be used and programmed to provide any pattern you want to output.


CD4018B Datasheet

The data pin on the will work fine dataheet the common of the dip switch. First problem was that the data sheet says to tie the outputs together with a NAND gate Thanks for the response.

I could not, however, run the output of a to the data pin with any success unless I first amplified it. Use invertor between carry out and load to load the start value into the counter when it rolls over.

Would appreciate any c4018b before I commit it to perf board and build a second one.

Everything is also made a bit more difficult by the output being part of the feedback that determines the division rate. You can use the DIP switch and diodes to provide the same sort of count datashet, or just stick with binary input. Trigger pulse goes catasheet and, depending on how it’s set, for every x pulses in you get 1 pulse out. This was fixed by the addition of a -very- mickey mouse transistor amp stage.

The datasheet uses Nand followed by invertor to get the AND functionality. You can buy binary encoded switches I would be particularly interested in knowing what the proper value of the resistor between the emitter and daatasheet should be. Second problem was that, probably because of the low voltage of the littlebits power supply, the AND gate output wasn’t pushing enough current to drive the data in on the I spent the last two evenings putting this together on a breadboard.


The hard part comes in that if you want to divide by odd numbers, you need to throw in some external logic. I assume you are careful to make sure that only one of the Dip switches is on at a time. The carry out is always 1 clock pulse wide. I would use a 74LS which is a synchronous counter that can be programmed. Regarding the transistor though, whether it should be able to or not, the is capable of driving both an output led and triggering a littlebits microsquencer straight from the data pin, as long as it’s doing an even division.

The is a twisted ring counter, there are several ttl programmable counters. If anyone cares to give it a good proof reading, again, it would be appreciated.

Author: admin