CY7C0852V-133AC Cypress Semiconductor Corp, CY7C0852V-133AC Datasheet - Page 8

CY7C0852V-133AC

Manufacturer Part Number

CY7C0852V-133AC

Description

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.CY7C0852V-133AC.pdf (32 pages)

Specifications of CY7C0852V-133AC

Density

4Mb

Access Time (max)

4.4ns

Sync/async

Synchronous

Architecture

SDR

Clock Freq (max)

133MHz

Operating Supply Voltage (typ)

3.3V

Address Bus

17b

Package Type

TQFP

Operating Temp Range

0C to 70C

Number Of Ports

Supply Current

300mA

Operating Supply Voltage (min)

3.135V

Operating Supply Voltage (max)

3.465V

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

176

Word Size

36b

Number Of Words

128K

Lead Free Status / Rohs Status

Not Compliant

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Address Counter and Mask Register

Operations

This section

CY7C0850AV/CY7C0851AV/CY7C0852AV devices, but not to

the CY7C0853AV device. Each port of these devices has a

programmable burst address counter. The burst counter

contains three registers: a counter register, a mask register, and

a mirror register.

The counter register contains the address used to access the

RAM array. It is changed only by the Counter Load, Increment,

Counter Reset, and by master reset (MRST) operations.

The mask register value affects the Increment and Counter

Reset operations by preventing the corresponding bits of the

counter register from changing. It also affects the counter

interrupt output (CNTINT). The mask register is changed only by

the Mask Load and Mask Reset operations, and by the MRST.

The mask register defines the counting range of the counter

more “0s” in the most significant bits define the masked region,

one or more “1s” in the least significant bits define the unmasked

region. Bit 0 may also be “0,” masking the least significant

counter bit and causing the counter to increment by two instead

of one.

The mirror register is used to reload the counter register on

increment operations (see “retransmit,” below). It always

contains the value last loaded into the counter register, and is

changed only by the Counter Load operation, and by the MRST.

Table 3 on page 7 summarizes the operation of these registers

and the required input control signals. The MRST control signal

is asynchronous. All the other control signals in Table 3 on page

7 (CNT/MSK, CNTRST, ADS, CNTEN) are synchronized to the

port’s CLK. All these counter and mask operations are

independent of the port’s chip enable inputs (CE0 and CE1).

Counter enable (CNTEN) inputs are provided to stall the

operation of the address input and utilize the internal address

generated by the internal counter for fast, interleaved memory

applications. A port’s burst counter is loaded when the port’s

address strobe (ADS) and CNTEN signals are LOW. When the

port’s CNTEN is asserted and the ADS is deasserted, the

address counter increments on each LOW to HIGH transition of

that port’s clock signal. This will Read/Write one word from/into

each successive address location until CNTEN is deasserted.

The counter can address the entire memory array, and loops

back to the start. Counter reset (CNTRST) is used to reset the

unmasked portion of the burst counter to 0s. A counter-mask

Counter Reset Operation

All unmasked bits of the counter are reset to “0.” All masked bits

remain unchanged. The mirror register is loaded with the value

of the burst counter. A Mask Reset followed by a Counter Reset

Notes

Document #: 38-06070 Rev. *H

10. This section describes the CY7C0852AV, which have 17 address bits and a maximum address value of 1FFFF. The CY7C0851AV has 16 address bits, register lengths

11. CNTINT and CNTRST specs are guaranteed by design to operate properly at speed grade operating frequency when tied together.

of 16 bits, and a maximum address value of FFFF. The CY7C0850AV has 15 address bits, register lengths of 15 bits, and a maximum address value of 7FFF.

[10]

describes the features only apply to

will reset the counter and mirror registers to 00000, as will master

reset (MRST).

Counter Load Operation

The address counter and mirror registers are both loaded with

the address value presented at the address lines.

Counter Readback Operation

The internal value of the counter register can be read out on the

address lines. Readback is pipelined; the address is valid t

after the next rising edge of the port’s clock. If address readback

occurs while the port is enabled (CE0 LOW and CE1 HIGH), the

data lines (DQs) is three-stated. Figure 4 on page 10 shows a

block diagram of the operation.

Counter Increment Operation

Once the address counter register is initially loaded with an

external address, the counter can internally increment the

address value, potentially addressing the entire memory array.

Only the unmasked bits of the counter register are incremented.

The corresponding bit in the mask register must be a “1” for a

counter bit to change. The counter register is incremented by 1

if the least significant bit is unmasked, and by 2 if it is masked. If

all unmasked bits are “1,” the next increment wraps the counter

back to the initially loaded value. If an Increment results in all the

unmasked bits of the counter being “1s,” a counter interrupt flag

(CNTINT) is asserted. The next Increment returns the counter

The counter address can instead be forced to loop to 00000 by

externally connecting CNTINT to CNTRST.

results in one or more of the unmasked bits of the counter being

“0” deasserts the counter interrupt flag. The example in Figure 5

on page 11 shows the counter mask register loaded with a mask

value of 0003Fh unmasking the first 6 bits with bit “0” as the LSB

and bit “16” as the MSB. The maximum value the mask register

can be loaded with is 1FFFFh. Setting the mask register to this

value allows the counter to access the entire memory space. The

address counter is then loaded with an initial value of 8h. The

base address bits (in this case, the 6th address through the 16th

address) are loaded with an address value but do not increment

once the counter is configured for increment operation. The

counter address starts at address 8h. The counter increments its

internal address value till it reaches the mask register value of

3Fh. The counter wraps around the memory block to location 8h

at the next count. CNTINT is issued when the counter reaches

its maximum value.

Counter Hold Operation

The value of all three registers can be constantly maintained

unchanged for an unlimited number of clock cycles. Such

operation is useful in applications where wait states are needed,

or when address is available a few cycles ahead of data in a

shared bus interface.

CY7C0850AV, CY7C0851AV

CY7C0852AV, CY7C0853AV

[11]

An increment that

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CY7C0852V-133AC Cypress Semiconductor Corp, CY7C0852V-133AC Datasheet - Page 8

CY7C0852V-133AC

Specifications of CY7C0852V-133AC

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