CYNSE70064A-50BGC Cypress Semiconductor Corp, CYNSE70064A-50BGC Datasheet - Page 12

CYNSE70064A-50BGC

Manufacturer Part Number

CYNSE70064A-50BGC

Description

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.CYNSE70064A-50BGC.pdf (128 pages)

Specifications of CYNSE70064A-50BGC

Operating Supply Voltage (typ)

1.8/2.5/3.3V

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Package Type

BGA

Mounting

Surface Mount

Lead Free Status / Rohs Status

Not Compliant

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Table 5-1. CYNSE70064A Signal Description (continued)

Document #: 38-02041 Rev. *F

Cascade Interface

Device Identification

Supplies

Test Access Port

Parameter

FULO[1:0]

LHO[1:0]

BHO[2:0]

FULI[6:0]

BHI[2:0]

TRST_L

LHI[6:0]

ALE_L

ID[4:0]

WE_L

OE_L

FULL

TDO

TMS

TCK

TDI

DDQ

Type

n/a

[1]

SRAM Write Enable. This is the Write-enable control for external SRAMs. In a database of

multiple CYNSE70064As, WE_L of all cascaded devices must be connected together. This

signal is then driven by only one of the devices.

SRAM Output Enable. This is the output-enable control for external SRAMs. Only the last

device drives this signal (with the LRAM bit set).

Address Latch Enable. When this signal is LOW, the addresses are valid on the SRAM

address bus. In a database of multiple CYNSE70064As, the ALE_L of all cascaded devices

must be connected. This signal is then driven by only one of the devices.

Local Hit In. These pins depth-cascade the device to form a larger table. One signal of this

bus is connected to the LHO[1] or LHO[0] of each of the upstream devices in a block. All

unused LHI pins are connected to a logic 0. (For more information, see Section 11.0,

“Depth-Cascading” on page 98.)

Local Hit Out. LHO[1] and LHO[0] are the same logical signal. Either the LHO[1] or the LHO[0]

is connected to one input of the LHI bus of up to four downstream devices in a block of up to

eight. (For more information see Section 11.0, “Depth-Cascading” on page 98.)

Block Hit In. Outputs from the previous block BHO[2:0] are tied to BHI[2:0] of the current

device. In a four-block system, the last block can contain only seven devices because the

identification code 11111 is used for broadcast access.

Block Hit Out. These outputs from the last device in a block are connected to the BHI[2:0]

inputs of the devices in the downstream blocks.

Full In. Each signal in this bus is connected to FULO[0] or FULO[1] of an upstream device to

generate the FULL flag for the depth-cascaded block.

Full Out. FULO[1] and FULO[0] are the same logical signal. One of these two signals must

be connected to the FULI of up to four downstream devices in a depth-cascaded table. Bit [0]

in the data array indicates whether the entry is full (1) or empty (0).This signal is asserted if

all bits in the data array are ones. (Refer to Section 11.0, “Depth-Cascading” on page 98, for

information on how to generate the FULL flag.)

Full Flag. When asserted, this signal indicates that the table of multiple depth-cascaded

devices is full.

Device Identification. The binary-encoded device identification for a depth-cascaded

system starts at 00000 and goes up to 11110. 11111 is reserved for a special broadcast

address that selects all cascaded search engines in the system. On a broadcast Read-only,

the device with the LDEV bit set to 1 responds.

Chip Core Supply. 1.8V.

Chip I/O supply. 2.5V or 3.3V.

Test access port’s test data out.

Test access port’s Test Mode Select.

Test access port’s test data in.

Test access port’s test clock.

Test access port’s Reset.

Description

CYNSE70064A

Page 12 of 128

CYNSE70064A-50BGC Cypress Semiconductor Corp, CYNSE70064A-50BGC Datasheet - Page 12

CYNSE70064A-50BGC

Specifications of CYNSE70064A-50BGC

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