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1 2 3 4 5 6 7 8 BOOT MODE 1 BOOT MODE 2 BIOS COMMUNICATION DEFAULT CONTROLLER INVERT RELAY OPERATION ENABLE COMM FAIL RELAY CONTROL RELAY OFF / ON COMM FAIL DRM MODULE ENABLED 1 2 3 4 RUN MODE 1 RUN MODE 2 ADDRESS 1 5 INVERT RELAY OPERATION RELAYS NOT INVERTED 5 INVERT RELAY OPERATION RELAYS INVERTED 8 DRM MODULE ENABLED 8 DRM MODULE ENABLED DRM MODULE DISABLED DRM MODULE ENABLED 6 7 ENABLE COMM FAIL RELAY CONTROL RELAY OFF / ON COMM FAIL 1 2 RUN MODE 1 RUN MODE 2 1 2 RUN MODE 1 RUN MODE 2 1 2 RUN MODE 1 RUN MODE 2

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6. ENABLE COMM FAIL RELAY CONTROL. 1. RUN MODE 1. 7. RELAY OFF / ON COMM FAIL. 2. RUN MODE 2. 1. RUN MODE 1. 1. BOOT MODE 1. 2. RUN MODE 2. 2. BOOT MODE 2. 3. BIOS COMMUNICATION. 4. DEFAULT CONTROLLER. 1. RUN MODE 1. 2. RUN MODE 2. ENABLE COMM FAIL RELAY CONTROL. - PowerPoint PPT Presentation

TRANSCRIPT

Page 1: BOOT MODE 1

1

2

3

4

5 6

7

8

BOOT MODE 1

BOOT MODE 2

BIOS COMMUNICATION

DEFAULT CONTROLLER

INVERT RELAY OPERATION

ENABLE COMM FAIL RELAY CONTROL

RELAY OFF / ON COMM FAIL

DRM MODULE ENABLED

1

2

3

4

RUN MODE 1

RUN MODE 2

ADDRESS 1

5 INVERT RELAY OPERATION

RELAYS NOT INVERTED

5 INVERT RELAY OPERATION

RELAYS INVERTED

8 DRM MODULE ENABLED

8 DRM MODULE ENABLED

DRM MODULE DISABLED

DRM MODULE ENABLED

6

7

ENABLE COMM FAIL RELAY CONTROL

RELAY OFF / ON COMM FAIL

1

2

RUN MODE 1

RUN MODE 2

1

2

RUN MODE 1

RUN MODE 2

1

2

RUN MODE 1

RUN MODE 2

Page 2: BOOT MODE 1

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 1FLOOR 1 TO 16

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 2FLOOR 17 TO 32

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 3FLOOR 33 TO 48

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 4FLOOR 49 TO 64

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 5FLOOR 1 TO 16

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 6FLOOR 17 TO 32

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 7FLOOR 33 TO 48

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 8FLOOR 49 TO 64

Page 3: BOOT MODE 1

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 9

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 10

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 11

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 12

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 13

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 14

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 15

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 16

Page 4: BOOT MODE 1

AC

AC

B+

B- S

T T

P T

P

1K5 OHM

LED

16VAC 40VA MAX

TRANSFORMER50/60Hz 40VA MAX

MAINSINPUT

+12V AUX

AC

AC

B+

B- S

T T

P T

P

Page 5: BOOT MODE 1

4Ah (MIN)GEL CELLBACKUP BATTERY

N+

N-

N

A

NB

TP

TP

F+

F-

FIRE CONTROLSYSTEM

12 - 32VDC6 - 21mA

TO NEXTELEVATORCONTROLLER

AC

AC

B+

B- S

T T

P T

P

Page 6: BOOT MODE 1

N+

N-

N

A

NB

N+

N-

N

A

NB

N+

N-

N

A

NB

CONTROLLER

EOL ON

0V

B-

A+

12

V

Page 7: BOOT MODE 1

S+

S-

S

A

SB

TO FIRST SLAVE FLOORCONTROL MODULE.PRT-PX16 IN FLOORCONTROL MODE.

TAMPER SWITCH

N+

N- N

A N

B T

P T

P

N+

N

-

NA

N

B

NETWORK COMMUNICATIONSINPUT FROM SYSTEMCONTROLLER OR PREVIOUSPROTÉGÉ SYSTEM MODULE

Page 8: BOOT MODE 1

NO

CO

M N

CR

EL

AY

1

FLOOR SELECT BUTTONIN ELEVATOR CAR

FLOOR INPUT TERMINALSIN ELEVATOR CONTROL SYSTEM

NORMAL CONNECTIONREMOVED

LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROLSYSTEM

NO

CO

M N

CR

EL

AY

1

FLOOR SELECT BUTTONIN ELEVATOR CAR

FLOOR INPUT TERMINALSIN ELEVATOR CONTROL SYSTEM

NORMAL CONNECTIONREMOVED

LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROLSYSTEM

Page 9: BOOT MODE 1

NO

CO

M N

CR

EL

AY

1FLOOR SELECT BUTTON

IN ELEVATOR CAR FLOOR INPUT TERMINALSIN ELEVATOR CONTROL SYSTEM

NORMAL CONNECTIONREMOVED

LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROLSYSTEM

+ IN

1 - +

IN2

-

INPUTS ON THE DRMDAUGHTER BOARD

RELAY CONTACTSON THE MAIN ELEVATOR CONTROLBOARDSEE TEXT

BUTTON VOLTAGECOMMON IN ELEVATORCONTROL SYSTEM

Page 10: BOOT MODE 1

NO

CO

M N

CR

EL

AY

1

FLOOR SELECT BUTTONIN ELEVATOR CAR FLOOR INPUT

TERMINALSIN ELEVATOR CONTROL SYSTEM

NORMAL CONNECTIONREMOVED

LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROLSYSTEM

+ IN

1 - +

IN2

-

INPUTS ON THE DRMDAUGHTER BOARD

RELAY CONTACTSON THE MAIN ELEVATOR CONTROLBOARD

SEE TEXT

BUTTON VOLTAGECOMMON IN ELEVATORCONTROL SYSTEM

Page 11: BOOT MODE 1

+ IN

1 - +

IN2

-

INPUTS ON THE DRMDAUGHTER BOARD

AC

AC

B+

B- +

- ST

POWER CONNECTOR ONMAIN ELEVATOR CONTROLBOARD

Page 12: BOOT MODE 1

EOL

EOL ON EOL OFF

350mA

700mA

350mA

700mA

FIRE

OVERRIDE FIRE

OVERRIDE

EOL

Page 13: BOOT MODE 1

1

2

3

4

5

6

7

8

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 16

ADDRESS 32

ADDRESS 64

SPECIAL FUNCTION

1

2

3

4

5

6

7

8

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 16

ADDRESS 32

ADDRESS 64

SPECIAL FUNCTION

1

2

3

4

5

6

7

8

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 16

ADDRESS 32

ADDRESS 64

SPECIAL FUNCTION

1

2

3

4

5

6

7

8

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

ADDRESS 16

ADDRESS 32

ADDRESS 64

SPECIAL FUNCTION

Page 14: BOOT MODE 1

N+

N-

N

A

NB

N+

N-

N

A

NB

N+

N-

N

A

NB

PC OR HOST CONTROLSYSTEM CONNECTED TO

A ACC-485 SERIAL INTERFACE

EOL OFF EOL OFF EOL ON

+1

2

0V

A+

B

-

Page 15: BOOT MODE 1

AC

AC

B+

B- +

- ST

7.5AhGEL CELLBACKUP BATTERY

N+

N-

N

A

NB

TP

TP

F+

F-

FIRE CONTROLSYSTEM

12 - 32VDC6 - 21mA

TO NEXTIRC RELAYCONTROLLER

Page 16: BOOT MODE 1

N+

N-

N

A

NB

FROM PREVIOUS CONTROLLER

TO NEXT IRC CONTROLLER

TP

TP

F+

F-

TAMPER SWITCH

Page 17: BOOT MODE 1

AC

AC

B+

B- S

T T

P T

P

COLD WATER PIPE GROUNDINGEARTH PEG GROUNDING ROD

TO OTHER EARTHCONNECTIONS

ALREADY ATTACHEDTO THE EARTH PEG OR

WATER PIPE

MIN AWG#14SINGLE SOLIDCONDUCTOR

COPPER WIRE

Page 18: BOOT MODE 1

N+

N-

N

A

NB

N+

N-

N

A

NB

MODULE OR CONTROLLERSUPPLYING POWER TONETWORKED DEVICES

AU

X+

AU

X-

N+

N-

N

A

NB

NEXT MODULESON NETWORK

Page 19: BOOT MODE 1

N+

N-

N

A

NB

N+

N-

N

A

NB

READER EXPANDER SUPPLYING NETWORK

POWER

AU

X+

AU

X-

S+

S-

S

A

SB

NEXT FLOORCONTROL MODULE

SLAVE DEVICES CONNECTED TO THE READER EXPANDER SLAVE

COMMUNICATION INTERFACE USETHE N+, N-, NA AND NB TERMIANLS.

Page 20: BOOT MODE 1

+ - D

0 D1 L

1 L2

BZ

PRX-SAMREADER CONNECTION

RED

BLACK

GREEN

WHITE

ORANGE

BROWN

BLUE

SHIELD

CONNECT THE READERSHIELD TO A SUITABLE

EARTH POINT.DO NOT CONNECT THE

SHIELD TO A GROUND ORNEGATIVE CONNECTION.

+12V

0V

DATA 0

DATA 1

GREEN LED

RED LED

BEEPER

PRX-NANO NANO PROXPROXIMITY READER

YELLOW

YELLOW OUTPUT CARD PRESENT SIGNAL

FACTORY OPTION

-

+

POWER SUPPLY 12VDC

Page 21: BOOT MODE 1

+ - D

0 D

1 L1 L

2 B

Z R

2 R2

R2

R2

R2 R

2 R

2

+ - D

0 D

1 L1 L

2 B

Z R

1 R1

R1

R1

R1 R

1 R

1

RED

BLACK

GREEN

WHITE

BROWN

ORANGE

BLUE

SHIELD

+12V

0V

DATA 0

DATA 1

GREEN LED

RED LED

BEEPER

RED

BLACK

GREEN

WHITE

BROWN

ORANGE

BLUE

SHIELD

DATA 1

ENTRY UNIT

EXIT READER

READER #1INPUT CONNECTION

READER #2INPUT CONNECTION

Page 22: BOOT MODE 1

+ - D

0 D

1 L1 L

2 B

Z R

1 R1

R1

R1

R1 R

1 R

1

RED

BLACK

GREEN

WHITE

BROWN

ORANGE

BLUE

SHIELD

+12V

0V

DATA 0

DATA 1

GREEN LED

RED LED

BEEPER +

- D0

D1 L

1 L2

BZ

R1 R

1 R

1 R

1 R

1 R1

R1

RED

BLACK

GREEN

WHITE

BROWN

ORANGE

BLUE

SHIELD

+12V

0V

DATA 0

DATA 1

GREEN LED

RED LED

BEEPER

Page 23: BOOT MODE 1

NC

CO

M N

O P

1 I3

I2 I1

DOOR CONTACTNORMALLY CLOSED

REQUEST TO EXITNORMALLY OPEN

+

-

ELECTRICLOCKING DEVICE

1N4007 DIODE(SUPPLIED)

-

+

BUZZERINPUT

ALARMOUTPUT

POWER SUPPLY12VDC

PRX-SAMINTERFACE

CONNECTIONS

Page 24: BOOT MODE 1

NC

CO

M N

O P

1 I3

I2 I1

DOOR CONTACTNORMALLY CLOSED

REQUEST TO EXITNORMALLY OPEN

+

-

ELECTRICLOCKING DEVICE

1N4007 DIODE(SUPPLIED)

-

+

DB9RS232

POWER SUPPLY12VDC

PRX-SAMINTERFACE

CONNECTIONS

PIN 2RXD

PIN 3TXD

PIN 5GND

Page 25: BOOT MODE 1

NC

CO

M N

O P

1 I3

I2 I1

DOOR CONTACTNORMALLY CLOSED

REQUEST TO EXITNORMALLY OPEN

+

-

ELECTRICLOCKING DEVICE

1N4007 DIODE(SUPPLIED)

-

+

RS485

POWER SUPPLY12VDC

PRX-SAMINTERFACE

CONNECTIONS

NA

NB

COM

Page 26: BOOT MODE 1

NC

CO

M N

O P

1 I3

I2 I1

DOOR CONTACTNORMALLY CLOSED

REQUEST TO EXITNORMALLY OPEN

+

-

ELECTRICLOCKING DEVICE

1N4007 DIODE(SUPPLIED)

-

+

BUZZERINPUT

ALARMOUTPUT

POWER SUPPLY12VDC

PRX-SAMINTERFACE

CONNECTIONS

Page 27: BOOT MODE 1

NC

CONNECTION SHOWNFOR LOCK RELAY 1

+

-

ELECTRICLOCKING DEVICE

1N4007 DIODE(SUPPLIED)

- +

POWER SUPPLY FOR LOCKINGDEVICES MAX 30VDC

Page 28: BOOT MODE 1

1K 1K

N.C. ZONE CONTACT

N.C. TAMPER CONTACT

N.C.

ZONE INPUT

COMMON

AU

X A

UX

Z1 C

OM

Z2

Z3 C

OM

Z4

+ - D

OO

R1

RE

X1

SE

N1

RE

N1

RESISTORS SHOULD BELOCATED AT THE DEVICEATTACHED TO THE ZONE

ZONE INPUT SHOWNFOR ZONE 1

Page 29: BOOT MODE 1

N.C. ZONE CONTACT

N.C.

ZONE INPUT

COMMON

AU

X A

UX

Z1 C

OM

Z2

Z3 C

OM

Z4

+ - D

OO

R1

RE

X1

SE

N1

RE

N1

ZONE INPUT SHOWNFOR ZONE 1

Page 30: BOOT MODE 1

+ - D

0 D

1 L1 L

2 B

Z R

1 R1

R1

R1

R1 R

1 R

1

CONNECTION SHOWN FORPGM RDxxx:03

1K5 OHM

LED

+12V AUX1

2

3

4

5

6

7

8

ADDRESS 4

ADDRESS 8

ADDRESS 1

ADDRESS 2

ADDRESS 64

ADDRESS 16

ADDRESS 32

DEFAULT / RUN

1

2

3

4

ADDRESS 1

ADDRESS 2

ADDRESS 4

ADDRESS 8

READER EXPANDERADDRESS 079

5

6

7 ADDRESS 64

ADDRESS 16

ADDRESS 32

Page 31: BOOT MODE 1

CROSSOVERDIRECT ETHERNET

CONNECTION

8 PORT ETHERNET HUBREADER EXPANDER

RJ45 ETHERNETCONNECTOR

READER EXPANDERRJ45 ETHERNET

CONNECTOR

MULTIPLE ETHERNETCONNECTIONS USING

A ETHERNET HUB

ET

HE

RN

ET

ET

HE

RN

ET

Page 32: BOOT MODE 1

N+

N-

N

A

NB

N+

N-

N

A

NB

SYSTEM CONTROLLER SUPPLYING NETWORK

POWER

AU

X+

AU

X-

N+

N-

N

A

NB

NEXT MODULEON NETWORK

STANDARD ZONE EXPANDERS CONNECTED TO

THE SYSTEM CONTROLLERCOMMUNICATION INTERFACE USE

THE N+, N-, NA AND NB TERMIANLS.

Page 33: BOOT MODE 1

N+

N

-

NA

N

B

MODULE NETWORKCOMMUNICATIONS

Page 34: BOOT MODE 1

CROSSOVERDIRECT ETHERNET

CONNECTION

8 PORT ETHERNET HUB

SYSTEM CONTROLLERRJ45 ETHERNET

CONNECTOR

MULTIPLE ETHERNETCONNECTIONS USING

A ETHERNET HUB

ET

HE

RN

ET

ET

HE

RN

ET

SYSTEM CONTROLLER

RJ45 ETHERNETCONNECTOR

ET

HE

RN

ET

SYSTEM CONTROLLER

ONE

SYSTEM CONTROLLER

TWO

Page 35: BOOT MODE 1

T2i

R2i

T

1i

R1

i T

1o R

1o

TELEPHONELINE CONNECTION

TERMINAL

COLD WATEREARTH PIPE

PRIMARY TELCOLINE OUT

PRIMARY TELCOLINE RING AND TIPINPUT (T1i and R1i)

SECONDARY TELCOLINE RING AND TIPINPUT (T2i and R2i)

Page 36: BOOT MODE 1

N.C. ZONECONTACT

Z1

Z2

Z3 C

OM

Z5 Z

6 Z7

DR

1 R

EX

1 S

EN

1 D

R2 R

EX

2 SE

N2

Page 37: BOOT MODE 1

N.C. TAMPER

1K1K

N.C. ZONECONTACT

Z1

Z2

Z3 C

OM

Z5 Z

6 Z7

DR

1 R

EX

1 S

EN

1 D

R2 R

EX

2 SE

N2

Page 38: BOOT MODE 1

B1

+ B

1- B

2+

B2

- P3

P4

CONNECTION SHOWNFOR BELL/SIREN 1

CP001:01

+

-

12VDC SIRENWARNING DEVICE

Page 39: BOOT MODE 1

B1

+ B

1- B

2+

B2

- P3

P4

CONNECTION SHOWNFOR CP001:03

1K5 OHM

LED

+12V AUX

Page 40: BOOT MODE 1

350mA

700mA

L

H

FIRE

OVERRIDE FIRE

OVERRIDE

L

H

L

H

350mA

700mA

Page 41: BOOT MODE 1

N+

N- N

A N

B

+1

2 0

V T

X R

X R

TS

N+

N- N

A N

B

AU

X

+ -

ACC-485 RS485CONVERTOR

SYSTEM CONTROLLERMODULE NETWORK CONNECTION

SYSTEM CONTROLLERAUXILLARY TERMINALS

USE SERIAL CABLE SUPPLIED WITHACC-485 TO CONNECT TO THE PC SERIAL PORT

Page 42: BOOT MODE 1
Page 43: BOOT MODE 1

+ - D

0 D

1 L1 L

2 B

Z R

1 R1

R1

R1

R1 R

1 R

1

CONNECTION SHOWN FORPROTÉGÉ SYSTEM

READER 1 PORTSINGLE LED READER CONTROL

RED

BLACK

GREEN

WHITE

BROWN

ORANGE

BLUE

SHIELD

CONNECT THE READERSHIELD TO A SUITABLE

EARTH POINT.DO NOT CONNECT THE

SHIELD TO A GROUND ORAUX- CONNECTION.

+12V

0V

PRX-NPROXNANO PROX

PROXIMITY READER

YELLOW

YELLOW OUTPUT CARD PRESENT SIGNAL

FACTORY OPTIONORANGE IS NOTUSED IN SINGLE LED OPERATION

N.O. BUTTON

Page 44: BOOT MODE 1

+ - D

0 D

1 L1 L

2 B

Z R

1 R1

R1

R1

R1 R

1 R

1

CONNECTION SHOWN FORPROTÉGÉ SYSTEM

READER 1 PORTSINGLE LED READER CONTROL

WITH BUTTON INPUT CONNECTION

RED

BLACK

GREEN

WHITE

BROWN

ORANGE

BLUE

SHIELD

CONNECT THE READERSHIELD TO A SUITABLE

EARTH POINT.DO NOT CONNECT THE

SHIELD TO A GROUND ORAUX- CONNECTION.

+12V

0V

PRX-NPROXNANO PROX

PROXIMITY READER

YELLOW

YELLOW OUTPUT CARD PRESENT SIGNAL

FACTORY OPTIONORANGE IS USED

FOR BUTTON INPUT CONNECTION

N.O. BUTTON

Page 45: BOOT MODE 1

+ - D

0 D

1 L1 L

2 B

Z R

1 R1

R1

R1

R1 R

1 R

1

CONNECTION SHOWN FORPROTÉGÉ SYSTEM

READER 1 PORT

YELLOW

GREEN

RED

BROWN

ORANGE

+5V

0V

CLOCK

DATA

OMRON READERMAGNETIC STRIPE READER

TRACK 2

OUT COM IN

INLINE +5V REGULATOR50mA MAX OUTPUTPART CODE REG-5V

+12V

0V

CLOCK

DATA

CARD PRESENT

REG-5V WIRING

RED = INPUT (+9 TO +12V)COM = 0V

WHITE = OUTPUT (+5V)

IMPORTANT NOTE

THE STANDARD OMRON/MAGTEK CARD READERS CAN HAVE AN INTERNAL MODIFICATION TO ALLOW THEM TO OPERATE FROM +12V WITHOUT THE

INLINE REGULATOR AS SHOWN IN THIS DIAGRAM. PLEASE CONTACT ICT FOR

FURTHER INFORMAITON.

FOR THE CONNECTION OF OTHER MAGNETIC CARD

DEVICES REFER TO MANUFACTURERS

INSTALLATION MANUAL

Page 46: BOOT MODE 1

+ - D

0 D

1 L1 L

2 B

Z R

1 R1

R1

R1

R1 R

1 R

1

CONNECTION SHOWN FORPROTÉGÉ SYSTEM

READER 1 PORT

RED

BLACK

GREEN

WHITE

ORANGE

BROWN

BLUE

SHIELD

CONNECT THE READERSHIELD TO A SUITABLE

EARTH POINT.DO NOT CONNECT THE

SHIELD TO A GROUND ORAUX- CONNECTION.

+12V

0V

DATA 0

DATA 1

GREEN LED

RED LED

BEEPER

PRX-NANO NANO PROXPROXIMITY READER

OR WIEGAND READER

YELLOW

YELLOW OUTPUT CARD PRESENT SIGNAL

FACTORY OPTIONFOR OTHER PROXIMITY READER

CONNECTIONS REFER TO THE MANUFACTURERS

INSTALLATION MANUAL

4 CORE CONDUCTORBETWEEN READERAND CONTROLLER


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Development chain for STM32 - tryat.eu...Boot mode Depending on the STM32 chosen, the boot pin(s) (external boot) is/are used to select which region of the memory will be used for

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Netapp Accelerated NCDA Boot Camp Data ONTAP 8.0 7-mode Exercise guide

AN2606 Application note - STMicroelectronics · Application note STM32 microcontroller system memory boot mode Introduction The bootloader is stored in the internal boot ROM memory

TMS320C6457 Technical Reference Manual - eInfochips · Technical Reference Manual TMDSEVM6474L ... 1.3 BASIC OPERATION ... 2.2 EVM BOOT MODE AND BOOT CONFIGURATION SWITCH SETTINGS

memory boot mode (AN2606), available from …...• BitRateSwitch = FDCAN_BRS_ON • FDFormat = FDCAN_FD_CAN • TxEventFifoControl = FDCAN_NO_TX_EVENTS • MessageMarker = 0 Note:

Securing secure boot with System Management Mode...Paolo Bonzini – KVM Forum 2015 UEFI phases – Boot SEC “Secure” phase Configure memory controller, enable caches Runs from

Red Hat Fuse 7 · In addition to Spring Boot 1, you also have the option of deploying into Spring Boot 2. NOTE For details about the OpenShift mode of deployment, see the Fuse on

TRM · BOOT MODE Input Boot mode J2-133 Control line which sets in conjunction with signal 'BOOTMODE_1' connected to CPLD(BOOTMODE_1 default high) the boot source of the Zynq chip

Netapp Accelerated NCDA Boot Camp Data ONTAP 8.0 7-mode student guide

suzaku software manual en-1.3.1-pre1 › files › downloads › ... · SHORT OPEN Boot First Stage Boot Loader Boot Loader Mode - SHORT FPGA Configuration (*1) ー *1 For more

Grammar boot camp #1