GAL26CLV12D-7LJ LATTICE [Lattice Semiconductor], GAL26CLV12D-7LJ Datasheet

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GAL26CLV12D-7LJ

Manufacturer Part Number
GAL26CLV12D-7LJ
Description
Low Voltage E2CMOS PLD Generic Array Logic
Manufacturer
LATTICE [Lattice Semiconductor]
Datasheet
1.GAL26CLV12D-7LJ.pdf (13 pages)
• HIGH PERFORMANCE E
• 3.3V LOW VOLTAGE 26CV12 ARCHITECTURE
• ACTIVE PULL-UPS ON ALL PINS
• E
• TWELVE OUTPUT LOGIC MACROCELLS
• PRELOAD AND POWER-ON RESET OF ALL REGISTERS
• APPLICATIONS INCLUDE:
• ELECTRONIC SIGNATURE FOR IDENTIFICATION
The GAL26CLV12D, at 5 ns maximum propagation delay time,
provides higher performance than its 5V counterpart. The
GAL26CLV12D can interface with both 3.3V and 5V signal levels.
The GAL26CLV12D is manufactured using Lattice Semiconductor's
advanced 3.3V E
Electrically Erasable (E
times (<100ms) allow the devices to be reprogrammed quickly and
efficiently.
The generic architecture provides maximum design flexibility by
allowing the Output Logic Macrocell (OLMC) to be configured by
the user.
Unique test circuitry and reprogrammable cells allow complete AC,
DC, and functional testing during manufacture. As a result, Lattice
Semiconductor delivers 100% field programmability and function-
ality of all GAL products. In addition, 100 erase/write cycles and
data retention in excess of 20 years are specified.
Copyright © 1997 Lattice Semiconductor Corp. All brand or product names are trademarks or registered trademarks of their respective holders. The specifications and information herein are subject
to change without notice.
LATTICE SEMICONDUCTOR CORP., 5555 Northeast Moore Ct., Hillsboro, Oregon 97124, U.S.A.
Tel. (503) 268-8000; 1-800-LATTICE; FAX (503) 268-8556; http://www.latticesemi.com
26clv12_02
Features
Description
FEATURES
— 5 ns Maximum Propagation Delay
— Fmax = 200 MHz
— 3.5 ns Maximum from Clock Input to Data Output
— UltraMOS
— JEDEC-Compatible 3.3V Interface Standard
— Inputs and I/O Interface with Standard 5V TTL Devices
— Reconfigurable Logic
— Reprogrammable Cells
— 100% Tested/100% Yields
— High Speed Electrical Erasure (<100ms)
— 20 Year Data Retention
— Maximum Flexibility for Complex Logic Designs
— Programmable Output Polarity
— 100% Functional Testability
— Glue Logic for 3.3V Systems
— DMA Control
— State Machine Control
— High Speed Graphics Processing
— Standard Logic Speed Upgrade
2
CELL TECHNOLOGY
®
Advanced CMOS Technology
2
CMOS process, which combines CMOS with
2
) floating gate technology. High speed erase
2
CMOS
®
TECHNOLOGY
1
Functional Block Diagram
Pin Configuration
I/CLK
I
I
I
I
I
I
I
I
I
I
I
I
VCC
I
I
I
I
I
I
11
5
7
9
12
4
GAL26CLV12D
GAL26CLV12
Low Voltage E
Top View
PLCC
14
2
Generic Array Logic™
PRESET
10
12
12
10
16
8
8
8
8
8
8
8
8
RESET
28
OLMC
OLMC
OLMC
OLMC
OLMC
OLMC
OLMC
OLMC
OLMC
OLMC
OLMC
OLMC
18
26
25
23
21
19
2
I/O/Q
I/O/Q
I/O/Q
I/O/Q
GND
I/O/Q
I/O/Q
CMOS PLD
July 1997
I/O/Q
I/O/Q
I/O/Q
I/O/Q
I/O/Q
I/O/Q
I/O/Q
I/O/Q
I/O/Q
I/O/Q
I/O/Q
I/O/Q
INPUT

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GAL26CLV12D-7LJ Summary of contents

Page 1

... ELECTRONIC SIGNATURE FOR IDENTIFICATION Description The GAL26CLV12D maximum propagation delay time, provides higher performance than its 5V counterpart. The GAL26CLV12D can interface with both 3.3V and 5V signal levels. The GAL26CLV12D is manufactured using Lattice Semiconductor's 2 advanced 3.3V E CMOS process, which combines CMOS with ...

Page 2

... GAL26CLV12D Ordering Information Commercial Grade Specifications Part Number Description GAL26CLV12D Device Name Speed (ns Low Power Power Specifications GAL26CLV12 ...

Page 3

... GAL26CLV12D OUTPUT LOGIC MACROCELL (OLMC) Output Logic Macrocell Configurations Each of the Macrocells of the GAL26CLV12D has two primary func- tional modes: registered, and combinatorial I/O. The modes and the output polarity are set by two bits (S0 and S1), which are nor- mally controlled by the logic compiler. Each of these two primary modes, and the bit settings required to enable them, are described below and on the following page ...

Page 4

Registered Mode ACTIVE LOW Combinatorial Mode ACTIVE LOW Specifications GAL26CLV12 ...

Page 5

... GAL26CLV12D Logic Diagram/JEDEC Fuse Map 0000 0052 . . . 0468 2 0520 . . . 0936 3 0988 . . . 1404 4 1456 . . . 1872 5 1924 . . . . 2444 6 2496 . . . . . 3120 8 3172 . . . . . 3796 9 3848 . . . . 4368 10 4420 . . . 4836 11 4888 . . . 5304 12 5356 . . . 5772 13 5824 . . . 6240 14 6292 6368, 6369 ... Byte 7 Byte 6 Byte 5 Byte Specifications GAL26CLV12 ...

Page 6

Absolute Maximum Ratings Supply voltage V .................................... -0.5 to +4.6V CC Input or I/O voltage applied ....................... -0.5 to +5.6V Off-state output voltage applied ................ -0.5 to +4.6V Storage Temperature ................................. -65 to 150 C Ambient Temperature with Power Applied ...

Page 7

AC Switching Characteristics TEST DESCRIPTION PARAMETER COND Input or I/O to Combinational Output Clock to Output Delay — Clock to Feedback Delay t su — Setup Time, ...

Page 8

Switching Waveforms INPUT or I/O FEEDBACK COMBINATORIAL OUTPUT Combinatorial Output INPUT or I/O FEEDBACK t dis OUTPUT Input or I/O to Output Enable/Disable CLK (w/o fdbk) Clock Width INPUT or I/O ...

Page 9

Descriptions CLK LOGIC REGISTER ARRAY max with External Feedback 1/( Note: fmax with external feedback is calculated from measured tsu and tco. CLK LOGIC REGISTER ARRAY max with No ...

Page 10

... These buffers have a characteristically high impedance, and present a much lighter load to the driving logic than bipolar TTL devices. The input and I/O pins on the GAL26CLV12D also have built-in ac- tive pull-ups result, floating inputs will float to a TTL high (logic 1). However, Lattice Semiconductor recommends that all unused inputs and tri-stated I/O pins be connected to an adjacent active input, Vcc, or ground ...

Page 11

... Device Pin Reset to Logic "0" chronous nature of system power-up, some conditions must be met to provide a valid power-up reset of the GAL26CLV12D. First, the Vcc rise must be monotonic. Second, the clock input must be at static TTL level as shown in the diagram during power up. ...

Page 12

... GAL26CLV12D: Typical AC and DC Characteristic Diagrams Normalized Tpd vs Vcc 1.1 RISE 1.05 FALL 1 0.95 0.9 3 3.15 3.3 3.45 3.6 Supply Voltage (V) Normalized Tpd vs Temp 1.3 RISE 1.2 FALL 1.1 1 0.9 0.8 -55 - 100 125 Temperature (deg. C) Delta Tpd Outputs 0 -0.1 -0.2 -0.3 -0 Number of Outputs Switching Delta Tpd vs Output Loading RISE ...

Page 13

... GAL26CLV12D: Typical AC and DC Characteristic Diagrams Vol vs Iol 1 0.8 0.6 0.4 0 Iol (mA) Normalized Icc vs Vcc 1.2 1.1 1 0.9 0.8 3 3.15 3.3 3.45 Supply Voltage (V) Delta Icc vs Vin (1 input 0.5 1 1.5 2 2.5 3 3.5 4 4.5 Vin (V) Specifications GAL26CLV12 Voh vs Ioh 3 2 Ioh(mA) Normalized Icc vs Temp 1 ...

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