DIVIDE BY 5 Search Results

SAB6456

Abstract: prescaler 256 IC02 98 Functional 1 prescaler 64 MS-012AA SAB6456T divide-by-256
Contextual Info: INTEGRATED CIRCUITS DATA SHEET SAB6456 SAB6456T Sensitive 1 GHz divide-by-64/divide-by-256 switchable prescaler Product specification File under Integrated Circuits, IC02 June 1986 Philips Semiconductors Product specification Sensitive 1 GHz divide-by-64/divide-by-256

HD74HC390

Abstract: Hitachi DSA003776
Contextual Info: HD74HC390 Dual Decade Counters Description The HD74HC390 incorporate dual decade counters, each composed of a divide-by-two and a divide-byfive counter. The divide-by-two and divide-by-five counters can be cascaded to form dual decade, dual biquinary, or various combinations up to a single divide-by-100 counter.

Contextual Info: OBSOLETE PRODUCT HMC791LC4B v03.0412 High Speed Logic - SMT 28 GHz CLOCK DIVIDE-BY-2 / DIVIDE-BY-4 Typical Applications Features The HMC791LC4B is ideal for: Supports Clock Frequencies up to 28 GHz • Frequency Division up to 28 GHz Simultaneous Divide-by-2 and Divide-by-4 Outputs

Contextual Info: HMC791LC4B v02.1209 7 28 GHz CLOCK DIVIDE-BY-2 / DIVIDE-BY-4 Typical Applications Features The HMC791LC4B is ideal for: Supports Clock Frequencies up to 28 GHz • Frequency Division up to 28 GHz Simultaneous Divide-by-2 and Divide-by-4 Outputs • Short, Intermediate, Long Haul Fiber Optic

Hitachi DSA002789

Contextual Info: HD74HC390 Dual Decade Counters Description The HD74HC390 incorporate dual decade counters, each composed of a divide-by-two and a divideby-five counter. The divide-by-two and divide-by-five counters can be cascaded to form dual decade, dual bi-quinary, or various combinations up to a single divide-by-100 counter.

DIVIDE-BY-60

Abstract: 14566B ETR10
Contextual Info: H D 14566B In d ustrial Tim e B ase G enerator T he H D 14566B industrial tim e base generator consists of a divide-by-10 ripple cou n ter and a divide-by-5 or divide-by-6 ripple co u n ter to perm it stable tim e generation from a 50 or 60Hz line. By cascading this device as divide-by-60 counter to p erm it stable

74LS90

Abstract: 74ls90 logic TTL 74LS93 SN54/74LS93 74LS90 application 74LS93 74LS93 pin diagram circuit diagram of 74ls92 74LS90 DATASHEET application of 74LS90
Contextual Info: SN54/74LS90 SN54/74LS92 SN54/74LS93 DECADE COUNTER; DIVIDE-BY-TWELVE COUNTER; 4-BIT BINARY COUNTER The SN54 / 74LS90, SN54 / 74LS92 and SN54 / 74LS93 are high-speed 4-bit ripple type counters partitioned into two sections. Each counter has a divide-by-two section and either a divide-by-five LS90 , divide-by-six (LS92) or

74LS90

Abstract: 74LS93 pin diagram 74LS93 P circuit diagram of 74ls92 TTL 74ls90 74LS93 logic symbol TTL 74LS93 74LS90 pin diagram 74LS93 74LS92
Contextual Info: SN54/74LS90 SN54/74LS92 SN54/74LS93 DECADE COUNTER; DIVIDE-BY-TWELVE COUNTER; 4-BIT BINARY COUNTER The SN54 / 74LS90, SN54 / 74LS92 and SN54 / 74LS93 are high-speed 4-bit ripple type counters partitioned into two sections. Each counter has a divide-by-two section and either a divide-by-five LS90 , divide-by-six (LS92) or

Contextual Info: Icc VS Vcc High-speed on-chip oscillator mode Prepared on Feb. 15, 2008 R8C/2E-2F Group XIN clock off High-speed on-chip oscillator on fOCO = 5MHz Low-speed on-chip oscillator on = 125kHz no-division no-division no-division divide-by-8 divide-by-8 divide-by-8

Contextual Info: Icc VS Vcc High-speed on-chip oscillator mode Prepared on Sep. 10, 2007 R8C/28-29 Group XIN clock off High-speed on-chip oscillator on fOCO = 5MHz Low-speed on-chip oscillator on = 125kHz no-division no-division no-division divide-by-8 divide-by-8 divide-by-8

MC12019

Abstract: MC12019D MC12019P
Contextual Info: Order this document by MC12019/D MC12019 Dual Modulus Prescaler The MC12019 is a divide by 20 and 21 dual modulus prescaler. It will divide by 20 when the modulus control input is HIGH and divide by 21 when the modulus control input is LOW. • • • •

MC12019D

Abstract: MC12019
Contextual Info: Order this document by MC12019/D MC12019 Dual Modulus Prescaler The MC12019 is a divide by 20 and 21 dual modulus prescaler. It will divide by 20 when the modulus control input is HIGH and divide by 21 when the modulus control input is LOW. • • • •

MC12019

Abstract: MC12019D
Contextual Info: Order this document by MC12019/D MC12019 Dual Modulus Prescaler The MC12019 is a divide by 20 and 21 dual modulus prescaler. It will divide by 20 when the modulus control input is HIGH and divide by 21 when the modulus control input is LOW. • • • •

Contextual Info: MOTOROLA SEMICONDUCTOR TECHNICAL DATA Dual Modulus Prescaler MC12019 The MC12019 is a divide by 20 and 21 dual modulus prescaler. It will divide by 20 when the modulus control input is HIGH and divide by 21 when the modulus control input is LOW. • 225MHz Toggle Frequency

decade prescaler

Contextual Info: 74HC/HCT4059 MSI PROGRAMMABLE DIVIDE-BY-N COUNTER FEATURES • • • • • • • • • • T Y P IC A L Synchronous programmable divide-by-n counter Presettable down counter Fully static operation Mode select control of initial decade counting function divide-by-10,8,

74ls290

Abstract: LS290 74LS293 751A-02 LS293 LS90 LS93 74LS293 Asynchronous counter
Contextual Info: SN54/74LS290 SN54/74LS293 DECADE COUNTER; 4-BIT BINARY COUNTER The SN54 / 74LS290 and SN54/ 74LS293 are high-speed 4-bit ripple type counters partitioned into two sections. Each counter has a divide-by-two section and either a divide-by-five LS290 or divide-by-eight (LS293) section

ODOMETER

Abstract: FREE ENERGY coil DIAGRAM CS8441 CS8441YN8
Contextual Info: CS8441 Stepper Motor Driver with Divide by Select http://onsemi.com DIP–8 N SUFFIX CASE 626 8 1 PIN CONNECTIONS AND MARKING DIAGRAM COILA+ COILA– SENSOR Features • No Cross–Conduction in Either H–Bridge • Divide by 1 and Divide by 2 Modes • Guaranteed Monotonic

MC12019P

Contextual Info: M MOTOROLA — —— — Dual Modulus Prescaler The MC12019 is a divide by 20 and 21 dual modulus prescaler. It will divide by 20 when the modulus control input is HIGH and divide by 21 when the modulus control input is LOW. • 225 MHz Toggle Frequency

ODOMETER

Abstract: CS4161 CS4161YN8 CS8441 ODOMETER pulse CS-4161 FREE ENERGY coil DIAGRAM
Contextual Info: Back CS4161 85 mA Dual H-Bridge Odometer Driver with Divide by Select and UVLO http://onsemi.com DIP–8 N SUFFIX CASE 626 8 1 PIN CONNECTIONS AND MARKING DIAGRAM COILA+ COILA– SENSOR Features Undervoltage Lockout Cross–Conduction Prevention Logic Divide by 1 and Divide by 2 Modes

Contextual Info: Order this document by MC12019/D M O T O R O L A M C 12019 Dual Modulus Prescaler The MC12019 is a divide by 20 and 21 dual modulus prescaler. It will divide by 20 when the modulus control input is HIGH and divide by 21 when the modulus control input is LOW.

Contextual Info: Icc VS Vcc High-speed on-chip oscillator mode Prepared on Sep. 10, 2007 R8C/28-29 Group XIN clock off High-speed on-chip oscillator on fOCO = 20MHz Low-speed on-chip oscillator on = 125kHz no-division no-division no-division divide-by-8 divide-by-8 divide-by-8

Contextual Info: Icc VS Vcc High-speed on-chip oscillator mode Prepared on Feb. 15, 2008 R8C/2E-2F Group XIN clock off High-speed on-chip oscillator on fOCO = 20MHz Low-speed on-chip oscillator on = 125kHz no-division no-division no-division divide-by-8 divide-by-8 divide-by-8

2A10J

Abstract: 181 .743 d auo -039 MC10H181 MC1699 motorola ic MC 02S5 auo 030 mc1201 dm 1265 r
Contextual Info: M O T O R O MCI 699 L A BEING DISCONTINUED LIFETIME BUY UNTIL JUNE 14. 1989 DIVIDE-BY-FOUR GIGAHERTZ COUNTER DIVIDE-BY-FOUR GIGAHERTZ COUNTER The MC1699 is a divide-by-four gigahertz counter. The clock input requires an ac coupled driving signal of 800 mV amplitude

ci 7492

Abstract: 7492 counter TTL 7492 7492 binary counter 7492 74LSS2 ci+7492
Contextual Info: 7492, LS92 Signetics Counters Divide-By-Twelve Counter Product Specification Logic Products DESCRIPTION The '92 is a 4-bit, ripple-type Divide-by12 Counter. The device consists of four master-slave flip-flops internally con­ nected to provide a divide-by-two sec­