поискавой системы для электроныых деталей |
|
CS80C88 датащи(PDF) 6 Page - Intersil Corporation |
|
CS80C88 датащи(HTML) 6 Page - Intersil Corporation |
6 / 32 page 3-6 Pin Description (Continued) The following pin function descriptions are for 80C88 system in maximum mode (i.e., MN/MX = GND). Only the pin functions which are unique to the maximum mode are described; all other pin functions are as described above. MAXIMUM MODE SYSTEM SYMBOL PIN NUMBER TYPE DESCRIPTION S0 S1 S2 26 27 28 O O O STATUS: is active during clock high of T4, T1 and T2, and is returned to the passive state (1, 1, 1) during T3 or during Tw when READY is HIGH. This status is used by the 82C88 bus controller to gener- ate all memory and I/O access control signals. Any change by S2, S1 or S0 during T4 is used to indicate the beginning of a bus cycle, and the return to the passive state in T3 or Tw is used to indicate the end of a bus cycle. These signals are held at a high impedance logic one state during “grant sequence”. RQ/GT0, RQ/GT1 31 30 I/O REQUEST/GRANT: pins are used by other local bus masters to force the processor to release the local bus at the end of the processor’s current bus cycle. Each pin is bidirectional with RQ/GT0 having higher priority than RQ/GT1. RQ/GT has internal bus-hold high circuitry and, if unused, may be left unconnected. The request/grant sequence is as follows (see RQ/GT Timing Sequence): 1. A pulse of one CLK wide from another local bus master indicates a local bus request (“hold”) to the 80C88 (pulse 1). 2. During a T4 or T1 clock cycle, a pulse one clock wide from the 80C88 to the requesting master (pulse 2), indicates that the 80C88 has allowed the local bus to float and that it will enter the “grant sequence” state at the next CLK. The CPUs bus interface unit is disconnected logically from the local bus during “grant sequence”. 3. A pulse one CLK wide from the requesting master indicates to the 80C88 (pulse 3) that the “hold” request is about to end and that the 80C88 can reclaim the local bus at the next CLK. The CPU then enters T4 (or T1 if no bus cycles pending). Each master-master exchange of the local bus is a sequence of three pulses. There must be one idle CLK cycle after bus exchange. Pulses are active LOW. If the request is made while the CPU is performing a memory cycle, it will release the local bus during T4 of the cycle when all the following conjugations are met: 1. Request occurs on or before T2. 2. Current cycle is not the low bit of a word. 3. Current cycle is not the first acknowledge of an interrupt acknowledge sequence. 4. A locked instruction is not currently executing. If the local bus is idle when the request is made the two possible events will follow: 1. Local bus will be released during the next clock. 2. A memory cycle will start within 3 clocks. Now the four rules for a currently active memory cycle apply with condition number 1 already satisfied. LOCK 29 O LOCK: indicates that other system bus masters are not to gain control of the system bus while LOCK is active (LOW). The LOCK signal is activated by the “LOCK” prefix instruction and remains active until the completion of the next instruction. This signal is active LOW, and is held at a high impedance logic one state during “grant sequence”. In Max Mode, LOCK is automatically generated during T2 of the first INTA cycle and removed during T2 of the second INTA cycle. QS1, QS0 24, 25 O QUEUE STATUS: provide status to allow external tracking of the internal 80C88 instruction queue. The queue status is valid during the CLK cycle after which the queue operation is performed. Note that the queue status never goes to a high impedance statue (floated). - 34 O Pin 34 is always a logic one in the maximum mode and is held at a high impedance logic one during a “grant sequence”. S2 S1 S0 CHARACTERISTICS 0 0 0 Interrupt Acknowledge 0 0 1 Read I/O Port 0 1 0 Write I/O Port 0 1 1 Halt 1 0 0 Code Access 1 0 1 Read Memory 1 1 0 Write Memory 1 1 1 Passive QS1 QS0 CHARACTERISTICS 0 0 No Operation 0 1 First Byte of Opcode from Queue 1 0 Empty the Queue 1 1 Subsequent Byte from Queue 80C88 |
Аналогичный номер детали - CS80C88 |
|
Аналогичное описание - CS80C88 |
|
|
ссылки URL |
Конфиденциальность |
ALLDATASHEETRU.COM |
Вашему бизинису помогли Аллдатащит? [ DONATE ] |
Что такое Аллдатащит | реклама | контакт | Конфиденциальность | обмен ссыками | поиск по производителю All Rights Reserved©Alldatasheet.com |
Russian : Alldatasheetru.com | Korean : Alldatasheet.co.kr | Spanish : Alldatasheet.es | French : Alldatasheet.fr | Italian : Alldatasheetit.com Portuguese : Alldatasheetpt.com | Polish : Alldatasheet.pl | Vietnamese : Alldatasheet.vn Indian : Alldatasheet.in | Mexican : Alldatasheet.com.mx | British : Alldatasheet.co.uk | New Zealand : Alldatasheet.co.nz |
Family Site : ic2ic.com |
icmetro.com |