ISPGDX240VA-9B388I Lattice Semiconductor, ISPGDX240VA-9B388I Datasheet - Page 7

ISPGDX240VA-9B388I

Manufacturer Part Number

ISPGDX240VA-9B388I

Description

In-System Programmable 3.3V Generic Digital CrosspointTM

Manufacturer

Lattice Semiconductor

Datasheet

1.ISPGDX240VA-9B388I.pdf (25 pages)

Current page: 7 of 25
Download datasheet (325Kb)

Figure 5. Address Demultiplex/Data Buffering

Figure 6. Data Bus Byte Swapper

Figure 7. Four-Port Memory Interface

Applications (Continued)

Note: All OE and SEL lines driven by external arbiter logic (not shown).

D8-15

D0-7

I/OA

OEA OEB

I/OA I/OB

OEA OEB

XCVR

I/OB

I/OA

OEA

CLK

Address

XCVR

Latch

Port #1

OE1

Port #2

OE2

Port #3

OE3

Port #4

OE4

Bidirectional

16-Bit MUX

OEB

I/OB

4-to-1

I/OA I/OB

OEA OEB

I/OA I/OB

OEA OEB

Memory

D8-15

D0-7

XCVR

SEL0

SEL1

OEM

Port

Buffered

Data

Address

To Memory/

Peripherals

Memory

Designing with the ispGDXVA

As mentioned earlier, this architecture satisfies the PRSI

class of applications without restrictions: any I/O pin as a

single input or bidirectional can drive any other I/O pin as

output.

For the case of PDP applications, the designer does have

to take into consideration the limitations on pins that can

be used as control (MUX0, MUX1, OE, CLK) or data

(MUXA-D) inputs. The restrictions on control inputs are

not likely to cause any major design issues because the

input possibilities span 25% of the total pins.

The MUXA-D input partitioning requires that designers

consciously assign pinouts so that MUX inputs are in the

appropriate, disjoint groups. For example, since the

MUXA group includes I/O A0-39 (240 I/O device), it is not

possible to use I/O A0 and I/O A9 in the same MUX

function. As previously discussed, data path functions

will be assigned early in the design process and these

restrictions are reasonable in order to optimize speed

and cost.

User Electronic Signature

The ispGDXVA Family includes dedicated User Elec-

tronic Signature (UES) E

to code design-specific information into the devices to

identify particular manufacturing dates, code revisions,

or the like. The UES information is accessible through

the boundary scan programming port via a specific com-

mand. This information can be read even when the

security cell is programmed.

Security

The ispGDXVA Family includes a security feature that

prevents reading the device program once set. Even

when set, it does not inhibit reading the UES or device ID

code. It can be erased only via a device bulk erase.

Specifications ispGDX240VA

CMOS storage to allow users

ISPGDX240VA-9B388I Lattice Semiconductor, ISPGDX240VA-9B388I Datasheet - Page 7

ISPGDX240VA-9B388I

Related parts for ISPGDX240VA-9B388I