ZiLOG Z8F1680 Microcontroller User manual

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ZiLOG Z8F1680 Microcontroller User manual | Manualzz

Z8F16800128ZCOG

Z8 Encore! XP

®

F1680 28-Pin

Series Development Kit

User Manual

UM020305-0508

Copyright ©2008 by Zilog

®

, Inc. All rights reserved.

www.zilog.com

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual ii

Safeguards

The following precaution must be observed when working with the devices described in this document.

Caution: Always use a grounding strap to prevent damage resulting from electrostatic discharge (ESD).

UM020305-0508 Safeguards

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

Revision History

Each instance in Revision History reflects a change to this document from its previous revision. For more details, refer to the corresponding pages and appropriate links in the table below.

Date

May

2008

March

2008

February

2008

June

2007

3

2

November

2006

1

Revision

Level Description

5

4

Added Z8F1680SJ020 to the

Introduction section.

Modified Schematics

Table 2 to incorporate changes to R15 from

220

Ω to 0 Ω. Added Note 3 to the

Schematics .

Updated document with new Zilog logo and text. Implemented Style Guide.

Removed IrDA.

Original issue.

Page

No

1

11

All

3, 7, 8,

9, 12

All iii

UM020305-0508 Revision History

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

Table of Contents

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

CPU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

F1680 28-Pin Series Development Board . . . . . . . . . . . . . . . . . . . . . 6

Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

MCU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

Power and Communication Interfaces . . . . . . . . . . . . . . . . . . . . . . . 9

External Interface Headers JP1 and JP2 . . . . . . . . . . . . . . . . . . . . . 9

Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

Customer Support. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

iv

UM020305-0508 Table of Contents

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

Introduction

Zilog’s Z8 Encore! XP on Zilog’s eZ8 TM

®

F1680 Series are Flash microcontrollers based

CPU, the 8-bit CPU core. Optimized for low-power applications, the Z8 Encore! XP F1680 Series support 1.8 V to 3.6 V operation with extremely low active, halt, and stop mode currents and an assortment of speed and low power options.

Z8F1680SJ020 is the silicon used in the board. For more details, refer to

Z8 Encore! XP

®

F1680 Series Product Specification (PS0250) available for download at www.zilog.com

.

The features available to balance power and performance needs of applications include:

Wide operating voltage range: 1.8 V to 3.6 V.

Active, Halt, and Stop operational modes with the ability to enable or disable peripherals for power savings.

Oscillator control that determines clock source, operating speed, and fail safe operation in addition to fast wakeup.

A user-controlled Program RAM area to store interrupt service routines of high-frequency interrupts. The Program RAM mechanism ensures low average current and quick response for high frequency interrupts.

The Z8 Encore! XP F1680 Series support up to 24 KB Flash program memory and 2 KB register data RAM. It also supports up to 256 B Non-

Volatile Data Storage (NVDS) besides the 1 KB of Program RAM.

The Z8 Encore! XP F1680 Series feature up to eight single-ended channels of 10-bit high speed analog-to-digital conversion with a sample and hold circuit. It also features one low-power operational amplifier for current sampling and two comparators. An on-chip temperature sensor

UM020305-0508 Introduction

1

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

UM020305-0508 allows die temperature measurement over a range of –40 ºC to +105 ° C.

These devices also include an on-chip low voltage detect block with user-selectable threshold.

Two full-duplex, 9-bit UARTs provide serial, asynchronous communication and support the local interconnect network (LIN) serial communications protocol. The LIN bus is a cost-efficient, single master, multiple slave organization that supports speed up to 20 kbps. The Z8 Encore! XP

F1680 Series also support an Enhanced Serial Peripheral Interface (ESPI) controller that provides buffered full-duplex, synchronous, characteroriented channel, and a I

2

C Master/Slave port to allow easy incorporation into any system.

The Z8 Encore! XP F1680 Series feature three 16-bit timers with Pulse-

Width Modulation (PWM), Capture, and Compare capabilities. The timers can operate in Stop mode using a low-power 32 kHz peripheral clock. The noise filter prevents false MCU wakeup, which eventually results in long-lasting battery. The Z8 Encore! XP F1680 Series also feature a multichannel timer that supports four Capture/Compare modules on one timer.

The Z8 Encore! XP F1680 Series feature a user-selectable system clock and an external 32 kHz, watch-crystal-based, low-power peripheral clock.

System clock sources include a high accuracy Internal Precision Oscillator (IPO) requiring no external components and an on-chip oscillator using external crystal, resonator, or low-cost RC circuit. The on-chip IPO is 2% accurate over standard temperature and voltage, and its output frequency is selectable in the 11 MHz to 43 kHz range. A low-power external 32 kHz, watch-crystal-based peripheral clock is available for the operation of timers in STOP mode as well as for the implementation of a real-time clock.

The Z8 Encore! XP F1680 Series support a single-pin debugger and programming interface that simplifies code development and allows easy in-circuit programming.

Introduction

2

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

3

Features

Key features of Z8 Encore! XP F1680 Series Flash microcontrollers include:

20 MHz eZ8 TM CPU core

8 KB, 16 KB, or 24 KB Flash memory with in-circuit programming capability

1 KB or 2 KB register data RAM

Up to 1 KB Program RAM for program code shadowing and data storage (optional)

Up to 256 B Non-Volatile Data Storage (NVDS)

Optional fast 8-channel, 10-bit Analog-to-Digital Converter (ADC)

On-chip temperature sensor

Up to two on-chip analog comparators (20-pin and 28-pin packages have only one)

On-chip Low-Power Operational Amplifier (LPO)

Two full-duplex, 9-bit, Universal Asynchronous Receiver/Transmitter

(UART) ports with support of Local Interconnect Network (LIN) protocol (20-pin and 28-pin packages have only one)

Enhanced Serial Peripheral Interface (SPI) controller (28-pin, 40-pin, and 44-pin packages only)

I

2

C Master/Slave

Three enhanced 16-bit timers with Capture, Compare, and PWM capability

Optional multichannel timer that supports four capture/compare modules on one timer (44-pin packages only)

Watchdog Timer (WDT) with dedicated internal RC oscillator

UM020305-0508 Introduction

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

UM020305-0508

17 to 39 General-Purpose Input/Output (GPIO) pins depending on package

Up to 8 direct LED drives

Up to 20 vectored interrupts

On-Chip Debugger (OCD)

Power-On Reset (POR)

Built-in Low-Voltage Detection (LVD) and Voltage Brownout (VBO) protection

32 kHz secondary oscillator for timers

Internal Precision Oscillator (IPO) with output frequency in the range of 43.2 kHz to 11.059 MHz

Crystal oscillator with three power settings and external RC network option

Wide operation voltage: 1.8 V to 3.6 V

Up to thirty-nine 5 V-tolerant inputs (digital mode only)

Ultra low power consumption:

– Active mode:

Typical < 0.2 mA/MHz @1.8 V (Flash/PRAM On)

Typical < 0.1 mA/MHz @1.8 V (Flash Off/PRAM On)

– Halt mode:

Typical < 70 µA/MHz @1.8 V

– Stop mode:

Typical < 0.01 µA @1.8 V (all peripherals disabled)

Typical < 1.0 µA @1.8 V (WDT running)

20-pin, 28-pin, 40-pin, and 44-pin packages

0 ºC to +70 ºC (standard), –40 ºC to +105 ºC (extended) operating temperature ranges

Introduction

4

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

For more information on Z8 Encore! XP F1680 Series, refer to

Z8 Encore! XP

®

F1680 Series Product Specification (PS0250), available for download at www.zilog.com

.

CPU

UM020305-0508

Zilog’s eZ8 TM CPU, latest 8-bit CPU meets the continuing demand for faster and more code-efficient microcontrollers. It executes a superset of the original Z8

®

instruction set. The eZ8 CPU features include:

Direct register-to-register architecture allows each register to function as an accumulator, improving execution time and decreasing the required Program Memory

Software stack allows greater depth in sub-routine calls and interrupts more than hardware stacks

Compatible with existing Z8 code

Expanded internal Register File allows access up to 4 KB

New instructions improve execution efficiency for code developed using higher-level programming languages including C

Pipelined instruction fetch and execution

New instructions for improved performance including BIT, BSWAP,

BTJ, CPC, LDC, LDCI, LEA, MULT, and SRL

New instructions support 12-bit linear addressing of the register file

Up to 10 MIPS operation

C-Compiler friendly

Two to nine clock cycles per instruction

For more details on eZ8 CPU, refer to eZ8 TM CPU User Manual

(UM0128) available for download at www.zilog.com

.

Introduction

5

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

F1680 28-Pin Series Development

Board

The Z8 Encore! XP F1680 28-Pin Series development board is a development and prototyping board for the Z8 Encore! XP F1680 Series MCU.

The board provides customers with a tool to evaluate features of the

Z8 Encore! XP F1680 Series MCU and to start developing an application before building the hardware.

6

UM020305-0508

Figure 1. Z8 Encore! XP F1680 28-Pin Series Development Board

F1680 28-Pin Series Development Board

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

7

Features

Key features of Z8 Encore! XP F1680 28-Pin Series development board include:

Z8 Encore!

®

MCU (28-pin SOIC, Z8F1680SJ020SG)

3 LEDs

RS-232 interface

Two push buttons, RESET and TEST

5 V DC power connector

On-Chip Debugger interface

20 MHz crystal (Y1)

Header for ADC input

Prototyping area

External interface connectors JP1 and JP2

2.7 V to 3.6 V operating voltage with 5 V-tolerant inputs

MCU

The Z8 Encore! XP F1680 28-Pin Series MCU is member of a family of

Zilog

®

microcontroller products based upon the 8-bit eZ8 TM CPU. The

Flash in-circuit programming capability allows for faster development time and program changes in the field. The eZ8 CPU is upward compatible with existing Z8

®

instructions. The rich peripheral set of the

Z8 Encore! XP F1680 28-Pin Series makes it suitable for various applications including motor control, security systems, home appliances, personal electronic devices, and sensors.

UM020305-0508 F1680 28-Pin Series Development Board

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

8

UM020305-0508

The development board contains circuitry to support and present all the features of the Z8 Encore! XP F1680 28-Pin Series.

The key features of the Z8 Encore! XP F1680 28-Pin Series include:

• eZ8 TM CPU

16 K of Flash memory with in-circuit programming capability

2 KB of data RAM

1 KB of Program RAM

256 Bytes of NVDS

One I

2

C

One enhanced SPI controller

Twenty-three I/O lines

Nineteen interrupts

Three 16-bit timers with capture, compare, and PWM capability

Eight-channel, 10-bit Analog-to-Digital Converter (ADC)

One full-duplex UART

One comparator

One temperature sensor

Watchdog Timer (WDT) with internal RC oscillator

Nineteen (28-pin package) I/O pins

Programmable priority interrupts

On-Chip Debugger

Voltage Brownout (VBO) Protection

Power-On Reset (POR)

F1680 28-Pin Series Development Board

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

2.7 V to 3.6 V operating voltage with 5 V-tolerant inputs

Operating temperatures: 20° ±10° C

For more information on the Z8 Encore! XP

® family of devices, refer to

Z8 Encore! XP

®

F1680 Series Product Specification (PS0250), available for download at www.zilog.com

.

Power and Communication Interfaces

Table 1 provides jumper information concerning the shunt status, functions, devices and defaults affected by jumpers JP3 and JP4.

Table 1. Jumpers JP3 and JP4

Jumper

JP3*

JP3

JP5

Status

OUT

IN

OUT

Device

Affected

RS-232 interface

RS-232 interface

U5 RESET/

PD0

Status

Enabled

Disabled

PD0 (GPIO)

JP5 IN U5 RESET/

PD0

RESET when

SW1 pressed

Note: * These jumpers must not be OUT at the same time.

X

Default

X

External Interface Headers JP1 and JP2

External interface headers JP1 and JP2 are shown in the schematic on page 13.

9

UM020305-0508 F1680 28-Pin Series Development Board

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

10

Installation

Follow the instructions provided in Z8 Encore! XP

®

/Z8 Encore!

®

(F0822,

F082A, F1680, and F083A Series) Development Kits Quick Start Guide

(QS0043) for the software installation and setup of the Z8 Encore! XP

F1680 28-Pin Series Development Kit.

UM020305-0508 Installation

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

11

Schematics

This section includes schematics for the Z8 Encore! XP F1680 Series

Development Board.

The following components appear in the schematic but are not installed on the board itself:

C9

JP4

R3 through R5

U4

UM020305-0508 Schematics

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

D

C

PA6_nT1OUT 1

PA7_T1OUT 1

PC3_COUT

1

VCC_33V

GND

VCC_33V

GND

5

2

2

2

VCC_33V

4

NOTE 3:

Resistors R20 and R21 are not populated. See Note 2.

VCC_33V

PA0_T0IN_JP

PA1_T0OUT_JP

20 pin footprint

PB1_ANA1

PB2_ANA2

PB3_ANA3

VCC_33V

PA0_T0IN

PA1_T0OUT

GND

PA2

PA3_CTS0

PA4_RXD0

7

8

5

6

9

10

1

2

3

4

PB1/ANA1

PB2/ANA2

PB3/CLKIN/ANA3

VDD

PA0/T0IN/T0OUT/XIN/

PA1/T0OUT/XOUT

GND

PA2/DE

PA3/CTS0

PA4/RXD0

PB0/ANA0

PC3/COUT/LED

PC2/ANA6/LED

PC1ANA5/CINN/LED

PC0/ANA4/CINP/LED

DBG

RESET/PD0

PA7/T1OUT

PA6/T1IN/T1OUT

PA5/TXD0

20

19

18

17

16

15

14

13

12

11

PB0_ANA0

PC3_COUT

PC2_ANA6

PC1_ANA5

PC0_ANA4

DBG

PD0

PA7_T1OUT

PA6_nT1OUT

PA5_TXD0

TEST

PA2

GND

1

IO

3 2

Note 1:

PB6 and PB7 are dual function pins (GPIO or Analog supply)

R12, R13, R16, and R17 are zero-ohm resistors used in conjunction with GPIO Control Registers to select function desired. C21, C22, and C23 are bypass capacitors that are used for better noise rejection. U8 is an optional filter that can be used to improve the quality of the Analog Supply. The development board is shipped configured for Analog Supply.

Table 1 shows the configurations recommended

TABLE 1

R12 R13 R16 R17 R22 U8 C21...C23

GPIO OUT IN OUT IN IN OUT OUT

Analog IN OUT IN OUT OUT optional IN

Supply

NOTE 1:

IO

3

SENSE

PA3_CTS0

PA4_RXD0

PA5_TXD0

PB2_ANA2

PB4_ANA7

PB5

PB3_ANA3

VCC_33V

PA0_T0IN

PA1_T0OUT

GND

PA2

PA3_CTS0

PA4_RXD0

PA5_TXD0

GND

PB6

RESET/TEST2

1

2

PB5_JP

28 pin footprint

9

10

5

6

7

8

11

12

13

14

1

2

3

4

PB2/ANA2

PB4/ANA7

PB5/Vref

PB3/ANA3/CLKIN

PB6(AVDD)

VDD

PA0/T0IN/T0OUTXIN

PA1/T0OUT/XOUT

GND

PB7(AGND)

PA2/DE

PA3/CTS0

PA4/RXD0

PA5/TXD0

PB1/ANA1

PB0/ANA0

PC3/COUT/LED

PC2/ANA6/LED

PC1/ANA5/CINN/LED

PC0/ANA4/CINP/LED

DBG

RESET/PD0

PC7/LED

PC6/LED

PA7/T1OUT

PC5/LED

PC4/LED

PA6/T1IN/T1OUT

28

27

26

25

24

23

22

21

20

19

18

17

16

15

PB1_ANA1

PB0_ANA0

PC3_COUT

PC2_ANA6

PC1_ANA5

PC0_ANA4

DBG

PD0

PC7

PC6

PA7_T1OUT

PC5

PC4

PA6_nT1OUT

DBG

B

1

1 3

3

NOTE 2

GND

NOTE 1:

PB7

PB0_ANA0 PB1_ANA1

C11

0.001uF

PB2_ANA2

C12

0.001uF

PB3_ANA3

C13

0.001uF

PC0_ANA4

C14

0.001uF

PC1_ANA5

C15

0.001uF

PC2_ANA6

C16

0.001uF

PB4_ANA7

C17

0.001uF

C18

0.001uF

GND

TABLE 2

A

Clock Mode R14 R15 R18 C19 C20 Y1

Internal Only none none none none none none

Crystal 0 Ohm 0 Ohm none Yes Yes Yes

Ceramic Res 0 Ohm 0 Ohm none none none Yes

External CMOS none none none none none none

(Use PA0_T0IN pin on JP2)

Note 2: The XP supports internal, external crystal, external

ceramic resonator, external R/C and external CMOS drive clock modes. R14, R15, R18, C19, C20 and Y1 are used to support the clock mode selected. The development board is shipped configured for external 20MHz ceramic resonator or internal clock operation. When using Internal oscilator, pins 7 and 8 could be used as GPIO ports PA0 and PA1. To do so install R20 and R21.

Table 2 shows the recommended clock mode configurations.

PB0_ANA0

PB1_ANA1

PB2_ANA2

PB3_ANA3

PC0_ANA4

PC1_ANA5

PC2_ANA6

PB4_ANA7

1

11

13

15

7

9

3

5

2

4

6

8

10

12

14

16

1

If Module is plugged onto the Dev Platform the local

RS232 interface is disabled by pin 50 of JP2

PB4_ANA7

PC1_ANA5

PB3_ANA3

PB1_ANA1

VCC_33V

PC4

PC7

PC3_COUT

PA6_nT1OUT

GND

PA7_T1OUT

PA3_CTS0

PA4_RXD0

PB6

PB7

GND

-RESET

VCC_33V

VCC_33V

39

41

43

45

31

33

35

37

47

49

51

53

23

25

27

29

15

17

19

21

9

11

13

5

7

1

3

55

57

59

6

8

2

4

10

12

14

40

42

44

46

32

34

36

38

48

50

52

54

24

26

28

30

16

18

20

22 connector 2

PC2_ANA6

PC0_ANA4

PB2_ANA2

PB0_ANA0

GND

PC5

PC6

PB5_JP

PA0_T0IN_JP

PA1_T0OUT_JP

PA2

PD0

GND

PA5_TXD0

-DIS_IrDA

GND

GND

-DIS_232

-DIS_IRDA

56

58

60

D

C connector 1 for reference only

-TRSTN

-F91_WE

GND

A6

A10

GND

A8

A13

A15

A18

A19

A2

A11

A4

A5

A21

A22

-CS0

-CS2

GND

D1

D3

D5

D7

-MREQ

-WR

-BUSACK

39

41

43

45

31

33

35

37

47

49

51

53

23

25

27

29

15

17

19

21

9

11

13

5

7

1

3

55

57

59

VCC_33V

A0

A3

VCC_33V

A7

A9

A14

A16

GND

A1

A12

A20

A17

-DIS_FLASH

VCC_33V

A23

-CS1

D0

D2

D4

GND

D6

-IOREQ

-RD

-INSTRD

-BUSREQ

40

42

44

46

32

34

36

38

48

50

52

54

24

26

28

30

16

18

20

22

6

8

2

4

10

12

14

56

58

60

B

A

5 4 3 2 1

Figure 2. Z8 Encore! XP F1680 28-Pin Series MCU Development Board, Page 1 of 2

12

UM020305-0508

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

13

B

A

C

D

GND

2

3

1

5 4

R23

10K

SENSE

-Z_RST

5

2

4

VIN

SENSE

SHDN

OUT

1

5V

+ C3

VCC

+ C7

VCC_33V

VCC_33V

R24

15K

3.3 OK

GND

UM020305-0508

5

3 4

5 6

11 10

13 12

3 2

VCC_33V

VCC_33V

PA5_TXD0

PA3_CTS0

PA4_RXD0

PA5_TXD0

GND

5

6

2

4

C1+

C1-

C2+

C2-

13

T1IN

12

T2IN

PA3_CTS0

PA4_RXD0

15

R1OUT

10

R2OUT

1

20

EN

SHDN

V+

3

V-

7

T1OUT

17

T2OUT

8

R1IN

16

R2IN

9

NC

NC

14

11

GND

-DIS_232

1

2

GND

DIS RS232

1 2

VCC_33V

-DIS_IRDA

1

2

DIS IRDA

R5

10K

9 8

GND

GND

VCC_33V

GND

VCC_33V

GND

1

3

5

DBG

INTERFACE

2

4

6

-Z_RST

DBG

DBG

4 3 2

Figure 3. Z8 Encore! XP F1680 28-Pin Series MCU Development Board, Page 2 of 2

PA5_TXD0

IRDA_SD

PA4_RXD0

5

1

2

4

3

6

VCC

LEDA

TXD

SD

RXD

GND

1

1

GND

TXD0

CTS0

RXD0

1

6

2

7

3

8

4

9

5

CONSOLE

USER

D

C

B

A

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

14

Customer Support

For answers to technical questions about the product, documentation, or any other issues with Zilog’s offerings, please visit Zilog’s Knowledge

Base at http://www.zilog.com/kb .

For any comments, detail technical questions, or reporting problems, please visit Zilog’s Technical Support at http://support.zilog.com

.

UM020305-0508

Z8 Encore! XP

®

F1680 28-Pin Series Development Kit

User Manual

15

Warning: DO NOT USE IN LIFE SUPPORT

LIFE SUPPORT POLICY

ZILOG'S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL

COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE

EXPRESS PRIOR WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL

COUNSEL OF ZILOG CORPORATION.

As used herein

Life support devices or systems are devices which (a) are intended for surgical implant into the body, or (b) support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in a significant injury to the user. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system or to affect its safety or effectiveness.

Document Disclaimer

©2008 by Zilog, Inc. All rights reserved. Information in this publication concerning the devices, applications, or technology described is intended to suggest possible uses and may be superseded. ZILOG, INC. DOES NOT ASSUME LIABILITY FOR OR

PROVIDE A REPRESENTATION OF ACCURACY OF THE INFORMATION,

DEVICES, OR TECHNOLOGY DESCRIBED IN THIS DOCUMENT. ZILOG ALSO

D O E S N O T A S S U M E L I A B I L I T Y F O R I N T E L L E C T U A L P R O P E RT Y

INFRINGEMENT RELATED IN ANY MANNER TO USE OF INFORMATION,

DEVICES, OR TECHNOLOGY DESCRIBED HEREIN OR OTHERWISE. The information contained within this document has been verified according to the general principles of electrical and mechanical engineering.

Z8, Z8 Encore!, and Z8 Encore! XP are registered trademarks of Zilog, Inc. eZ8 is a trademark of Zilog, Inc. All other product or service names are the property of their respective owners.

UM020305-0508

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