The following document contains information on Cypress products. S6AL211A21 ASSP 4ch LED Driver IC for Intelligent Lighting DALI interface, Input Voltage 24V, Dimming type B S6AL211 Series HARDWARE MANUAL Publication Number S6AL211A21_MN405-00003 CONFIDENTIAL Revision 1.0 Issue Date February 10, 2015 H A R D W A R E M A N U A L Preface Thank you for your continued use of Spansion semiconductor products. Read this manual and "Data Sheet" thoroughly before using products in this series. Purpose of this manual and intended readers This manual explains the functions and operations of this product and describes how it is used. The manual is intended for engineers engaged in the actual development of products using this product. Note: − 2 CONFIDENTIAL This manual explains the configuration and operation, but does not cover the specifics of each device in the series. Users should refer to the respective data sheets of devices for device-specific details. S6AL211A21_MN405-00003-1v0-E, February 10, 2015 H A R D W A R E M A N U A L Table of Contents 1. 2. 3. Product Overview ........................................................................................................................... 4 About Corresponded DALI Standard .............................................................................................. 4 2.1 Terminal Connection ........................................................................................................... 5 2.2 Corresponded Commands .................................................................................................. 7 2.2.1 Corresponded Commands of Device Type 0 ...................................................... 7 2.2.2 Corresponded Commands of Device Type 6 .................................................... 10 2.3 Dimming Curve ................................................................................................................. 13 2.3.1 DALI Logarithm Curve ...................................................................................... 13 2.3.2 DALI Linear Curve ............................................................................................ 14 2.4 Memory Bank .................................................................................................................... 15 2.4.1 Direct Memory Bank Access Mode ................................................................... 16 2 2.4.2 I C Data Format and Timing ............................................................................. 17 2.4.3 Command of Direct Memory Bank Access Mode ............................................. 17 2.4.4 Memory Map of Memory Bank ......................................................................... 17 Major Changes ............................................................................................................................. 19 Figures Figure 2-1 Formula of Logarithm Dimming Curve .................................................................................... 13 Figure 2-2 Logarithm Dimming Curve ...................................................................................................... 13 Figure 2-3 Formula of Linear Dimming Curve .......................................................................................... 14 Figure 2-4 Linear Dimming Curve ............................................................................................................ 14 Figure 2-5 Structure of Memory Bank ...................................................................................................... 15 Figure 2-6 State Flow ............................................................................................................................... 16 2 Figure 2-7 I C Data Format and Timing .................................................................................................... 17 Tables Table 2-1 Tabl Terminal Connection for DALI ............................................................................................. 5 Table 2-2 Arc Power Control Commands ................................................................................................... 7 Table 2-3 Configuration Commands ........................................................................................................... 7 Table 2-4 Query Commands ...................................................................................................................... 8 Table 2-5 Application Extended Commands ............................................................................................... 8 Table 2-6 Special Commands .................................................................................................................... 9 Table 2-7 Extended Special Commands .................................................................................................... 9 Table 2-8 Queries Related to Status Information ...................................................................................... 10 Table 2-9 Application Extended Configuration Commands ....................................................................... 10 Table 2-10 Application Extended Query Commands ................................................................................ 10 Table 2-11 Extended Special Commands ................................................................................................. 10 Table 2-12 Detail of Query Response........................................................................................................ 11 Table 2-13 Comparison of Protection Function and DALI Query .............................................................. 12 Table 2-14 Command of Direct Memory Bank Access Mode ................................................................... 17 Table 2-15 Memory Map of Memory Bank ................................................................................................ 17 February 10, 2015, S6AL211A21_MN405-00003-1v0-E CONFIDENTIAL 3 H A R D W A R E M A N U A L 1. Product Overview S6AL211A21 corresponds to these specifications. − Communication Interface − VIN voltage − Dimming type : DALI : 24V :B 2. About Corresponded DALI Standard This product corresponds to DALI communication interface for dimming and color control function. − Standard: IEC 62386-101 Edition 1.0, -102 Edition 1.0 (Device type 0), -207 Edition 1.0 (Device type 6) − Master / Slave mode − Two-wire half-duplex communication − Transmission rate : 1200bps ±10% It is necessary of the external IC, the isolation and level conversion circuits. The VARIABLE in IEC 62386-102 and IEC 62386-207 is set the DEFAULT VALUE. 4 CONFIDENTIAL S6AL211A21_MN405-00003-1v0-E, February 10, 2015 H A R D W A R E 2.1 M A N U A L Terminal Connection Table 2-1 Tabl Terminal Connection for DALI Pin No. Pin Name I/O 1 DGND - Ground Terminal Connection Place 2 BIAS2 O Connect By-pass capacitor. ( Do not connect external load ) 3 BIAS O Connect By-pass capacitor. ( Do not connect external load ) 4 VIN - DC 24V Power supply 5 DRV_1 O Connect external switching FET1 gate of current control. 6 DRV_2 O Connect external switching FET2 gate of current control. 7 VIN - DC 24V Power supply 8 DRV_3 O Connect external switching FET3 gate of current control. 9 DRV_4 O Connect external switching FET4 gate of current control. 10 DIN1 I Mode setting Pin 1 Usually use: Input to VO pin output level. When you use the Direct memory bank access mode: Input to GND level. 11 DIN2 I 12 SCL I/O Unused Pin Connect to GND level. Connect I2C bus Clock. 2 Connect to VO pin if you do not use the Direct memory bank access mode. 13 SDA I/O Connect I C bus Data. 14 SH_1 O Connect external switching FET1 gate of PWM dimming control. 15 SH_2 O Connect external switching FET2 gate of PWM dimming control. 16 AGND - Ground 17 SH_3 O Connect external switching FET3 gate of PWM dimming control. 18 SH_4 O Connect external switching FET4 gate of PWM dimming control. 19 TEMP1 I Connect Temperature sensor 1. 20 TEMP2 I Connect Temperature sensor 2. 21 TEMP3 I Connect Temperature sensor 3. 22 TEMP4 I Connect Temperature sensor 4. 23 AGND - Ground 24 CS_1P I Connect LED current sense 1 of High side. 25 CS_1N I Connect LED current sense 1 of Low side. 26 CS_2P I Connect LED current sense 2 of High side. 27 CS_2N I Connect LED current sense 2 of Low side. 28 CS_3P I Connect LED current sense 3 of High side. 29 CS_3N I Connect LED current sense 3 of Low side. 30 CS_4P I Connect LED current sense 4 of High side. 31 CS_4N I Connect LED current sense 4 of Low side. 32 PCNT O IC status output Pin 33 TEST I 34 IF1 I 35 IF2 O 36 AGND - 37 SENSE1 I 38 SENSE2/ADD2 I Exclusive use of the Test Connect to BIAS3 Pin. Communication interface (DALI/UART) data input Pin Connect to DALI-RX. Communication interface (DALI/UART) data output Pin Connect to DALI-TX. Ground Unused Pin Connect to GND level. Unused Pin Connect to GND level. February 10, 2015, S6AL211A21_MN405-00003-1v0-E CONFIDENTIAL 5 H A R D W A R E Pin No. Pin Name I/O 39 SENSE3/ADD3 I 40 SENSE4/ADD4 I 41 ADD5 I M A N U A L Terminal Connection Place Unused Pin Connect to GND level. Unused Pin Connect to GND level. DAL I interface diagnosis circuit connection Pin Normal mode: Input to VO pin output level. If fault is detected: Input to GND level. DALI Physical Selection setting Pin 42 ADD6 I Normal mode: Input to GND level. Physical Selection mode: Input to VO pin output level. Unused Pin 43 ADD7 I 44 ADD8 I 45 SP I 46 BIAS3 O Connect By-pass capacitor. ( Do not connect external load ) 47 AGND - Ground Connect to GND level. Unused Pin Connect to GND level. Exclusive use of the Test Connect to BIAS3 Pin. 3V LDO output Pin 48 VO O Connect Temperature sensor of power supply side. Connect Other 3V loads. 6 CONFIDENTIAL S6AL211A21_MN405-00003-1v0-E, February 10, 2015 H A R D W A R E M A N U A L 2.2 Corresponded Commands 2.2.1 Corresponded Commands of Device Type 0 The commands of DALI IEC 62386-102 Edition 1.0 (Device type 0) with which this product corresponds is shown below. Table 2-2 Arc Power Control Commands Number Command Direct arc power control command - DIRECT ARC POWER CONTROL Indirect arc power control command 0 OFF 1 UP 2 DOWN 3 STEP UP 4 STEP DOWN 5 RECALL MAX LEVEL 6 RECALL MIN LEVEL 7 STEP DOWN AND OFF 8 ON AND STEP UP 9 ENABLE DAPC SEQUENCE 10 to 15 RESERVED 16 to 31 GO TO SCENE Table 2-3 Configuration Commands Number Command General Configuration commands 32 RESET 33 STORE ACTUAL LEVEL IN THE DTR 34 to 41 RESERVED Arc power parameters settings 42 STORE THE DTR AS MAX LEVEL 43 STORE THE DTR AS MIN LEVEL 44 STORE THE DTR AS SYSTEM FAILURE LEVEL 45 STORE THE DTR AS POWER ON LEVEL 46 STORE THE DTR AS FADE TIME 47 STORE THE DTR AS FADE RATE 48 to 63 RESERVED 64 to 79 STORE THE DTR AS SCENE 80 to 95 REMOVE FROM SCENE 96 to 111 ADD TO GROUP 112 to 127 REMOVE FROM GROUP 128 STORE DTR AS SHORT ADDRESS 129 ENABLE WRITE MEMORY 130 to 143 RESERVED February 10, 2015, S6AL211A21_MN405-00003-1v0-E CONFIDENTIAL 7 H A R D W A R E M A N U A L Table 2-4 Query Commands Number Command Queries related to status information 144 QUERY STATUS 145 QUERY CONTROL GEAR 146 QUERY LAMP FAILURE 147 QUERY LAMP POWER ON 148 QUERY LIMIT ERROR 149 QUERY RESET STATE 150 QUERY MISSING SHORTADDRESS 151 QUERY VERSION NUMBER 152 QUERY CONTENT DTR 153 QUERY DEVICE TYPE 154 QUERY PHYSICAL MINIMUM LEVEL 155 QUERY POWER FAILURE 156 QUERY CONTENT DTR1 157 QUERY CONTENT DTR2 158, 159 RESERVED Queries related to arc power parameter settings 160 QUERY ACTUAL LEVEL 161 QUERY MAX LEVEL 162 QUERY MIN LEVEL 163 QUERY POWER ON LEVEL 164 QUERY SYSTEM FAILURE LEVEL 165 QUERY FADE TIME/FADE RATE 166 to 175 RESERVED Queries related to system parameter settings 176 to 191 QUERY SCENE LEVEL (SCENES 0-15) 192 QUERY GROUPS 0-7 193 QUERY GROUPS 8-15 194 QUERY RANDOM ADDRESS (H) 195 QUERY RANDOM ADDRESS (M) 196 QUERY RANDOM ADDRESS (L) 197 READ MEMORY LOCATION 198 to 223 RESERVED Table 2-5 Application Extended Commands Number Command Application extended commands 224 to 254 255 8 CONFIDENTIAL For device type 6 (207) QUERY EXTENDED VERSION NUMBER S6AL211A21_MN405-00003-1v0-E, February 10, 2015 H A R D W A R E M A N U A L Table 2-6 Special Commands Number Command Special commands 256 TERMINATE 257 DATA TRANSFER REGISTER(DTR) 258 INITIALISE 259 RANDOMISE 260 COMPARE 261 WITHDRAW 262 RESERVED 263 RESERVED 264 SEARCHADDRH 265 SEARCHADDRM 266 SEARCHADDRL 267 PROGRAM SHORT ADDRESS 268 VERIFY SHORT ADDRESS 269 QUERY SHORT ADDRESS 270 PHYSICAL SELECTION 271 RESERVED Table 2-7 Extended Special Commands Number Command Extended special commands 272 ENABLE DEVICE TYPE X 273 DATA TRANSFER REGISTER 1 (DTR1) 274 DATA TRANSFER REGISTER 2 (DTR2) 275 WRITE MEMORY LOCATION February 10, 2015, S6AL211A21_MN405-00003-1v0-E CONFIDENTIAL 9 H A R D W A R E 2.2.2 M A N U A L Corresponded Commands of Device Type 6 The commands of DALI IEC 62386-207 Edition 1.0 (Device type 6) with which this product corresponds is shown below. Table 2-8 Queries Related to Status Information Number Command When received "Command 272 ENABLE DEVICE TYPE 6", replaced the commands 146 QUERY LAMP FAILURE 153 QUERY DEVICE TYPE Table 2-9 Application Extended Configuration Commands Number Command Application extended configuration commands 227 SELECT DIMMING CURVE 228 STORE DTR AS FAST FADE TIME 229 RESERVED 230, 231 RESERVED 232 to 235 RESERVED Table 2-10 Application Extended Query Commands Number Command Application extended query commands 236 RESERVED 237 QUERY GEAR TYPE 238 QUERY DIMMING CURVE 239 QUERY POSSIBLE OPERATING MODES 240 QUERY FEATURES 241 QUERY FAILURE STATUS 242 QUERY SHORT CIRCUIT 243 QUERY OPEN CIRCUIT 244 QUERY LOAD DECREASE 245 QUERY LOAD INCREASE 246 Do not corresponded : QUERY CURRENT PROTECTOR ACTIVE (*1) 247 Do not corresponded : QUERY THERMAL SHUT DOWN (*1) 248 QUERY THERMAL OVERLOAD 249 Do not corresponded : QUERY REFERNCE RUNNING 250 Do not corresponded : QUERY REFERNCE MEASUREMENT FAILD 251 Do not corresponded : QUERY CURRENT PROTECTOR ENABLED 252 QUERY OPERATING MODE 253 QUERY FAST FADE TIME 254 QUERY MIN FAST FADE TIME 255 QUERY EXTENDED VERSION NUMBER *1: This product is integrated feature of output current protector and thermal shutdown. However, the composition of those features differs from the DALI specification. Table 2-11 Extended Special Commands Number Command Extended special commands 272 10 CONFIDENTIAL ENABLE DEVICE TYPE 6 S6AL211A21_MN405-00003-1v0-E, February 10, 2015 H A R D W A R E M A N U A L Table 2-12 Detail of Query Response Number Command 240 Response 0 or 1 1 AM mode is possible 2 output is current controlled OPERATING 3 high current pulse mode 0: Do not care MODES 4 Not use 0 5 Not use 0 6 Not use 0 7 Not use 0 0 short circuit detection can be queried 1 1 open circuit detection can be queried 1 2 detection of load decrease can be queried 1 QUERY 3 detection of load increase can be queried 1 FEATURES 4 current protector is implemented and can be queried 0 (*2) 5 thermal shut down can be queried 0 (*2) 6 light level reduction due to over temperature can be queried 1 7 physical selection supported 1 0 short circuit 1 open circuit 2 load decrease 3 load increase 4 current protector active 0: Do not care 5 thermal shut down 0: Do not care 6 thermal overload with light level reduction 7 reference measurement failed 0 PWM mode active 1 AM mode active 2 output is current controlled 3 high current pulse mode is active 4 non-logarithmic dimming curve is active 5 Not use 0 6 Not use 0 7 Not use 0 POSSIBLE FAILURE STATUS QUERY 252 Content PWM mode is possible QUERY 241 Bit 0 QUERY 239 Details OPERATING MODE 1: Dimming type A or C (*1) 0 : Do not care 0 or 1 1: Dimming type B or C (*1) 0 or 1 1: Protection state 0 or 1 1: Protection state 0 or 1 1: Protection state 0 or 1 1: Protection state 0 or 1 1: Protection state 0: Do not care 0 or 1 1: Dimming type A or C (*1) 0: Do not care 0 or 1 1: Dimming type B or C (*1) 0: Do not care 0 or 1 1: Linear curve *1: The Product parts number is assigned to each Dimming type. *2: This product is integrated feature of output current protector and thermal shutdown. However, the composition of those features differs from the DALI specification. February 10, 2015, S6AL211A21_MN405-00003-1v0-E CONFIDENTIAL 11 H A R D W A R E M A N U A L Table 2-13 Comparison of Protection Function and DALI Query Protection Function Initializing Initializing operation DRV_1 to 4 State operation SH_1 to 4 PCNT DALI Query Response L - L - DRV_x = "H", SH_x = "L" Stop Switching (All channels) Normal Normal Dimming Dimming operation Switching operation Switching Output Over Current Dimming (All channels) Protection Protection − Output current -10% − Disable output current increase Output Short Circuit Lights out Protection Protection-2 QUERY LAMP FAILURE, L load increase QUERY LOAD INCREASE QUERY LAMP FAILURE DRV_x = "H", SH_x = "L" Stop Switching QUERY FAILURE STATUS: L (All channels) QUERY FAILURE STATUS: short circuit QUERY SHORT CIRCUIT QUERY LAMP FAILURE, Max Duty Protection Lights out Protection-2 DRV_x = "H", SH_x = "L" Stop Switching QUERY FAILURE STATUS: L (All channels) load decrease, open circuit QUERY LOAD DECREASE QUERY OPEN CIRCUIT DRV_x = "H", SH_x = "L" Input Over Voltage Lights out Protection Protection-1 Input Low Voltage Dimming (All channels) Protection Protection − Output current -10% − Disable output current increase Stop Switching L Switching Input Under Voltage Lights out Shutdown Protection-3 External Over Temperature Protection Internal Over Temperature Protection Internal Over Temperature Shutdown QUERY LAMP FAILURE, L load increase QUERY LOAD INCREASE Stop Switching X (All channels) Switching (All channels) Protection − Output current -10% − Disable output current increase Dimming (All channels) Protection − Output current -10% − Disable output current increase (Because of IC shutdown) QUERY LAMP FAILURE, L QUERY FAILURE STATUS: thermal overload with light level reduction QUERY THERMAL OVERLOAD Switching Protection-3 QUERY FAILURE STATUS: DRV_x = "H", SH_x = "L" Dimming Lights out QUERY LAMP FAILURE (*1) (All channels) QUERY LAMP FAILURE L QUERY FAILURE STATUS: thermal overload with light level reduction QUERY THERMAL OVERLOAD DRV_x = "H", SH_x = "L" Stop Switching H (All channels) Switching VO Under Voltage Dimming (All channels) Protection Protection − Output current -10% − Disable output current increase (Because of IC shutdown) QUERY LAMP FAILURE, L QUERY FAILURE STATUS: thermal overload with light level reduction QUERY THERMAL OVERLOAD (*2) *1: After "Restart wait time", IC is initialized for return from the protection state. *2: The VO Under Voltage Protection is detected by TEMPx terminals. VO Under Voltage protection is indicated to be the THERMAL OVERLOAD on DALI query response. 12 CONFIDENTIAL S6AL211A21_MN405-00003-1v0-E, February 10, 2015 H A R D W A R E M A N U A L 2.3 Dimming Curve 2.3.1 DALI Logarithm Curve Figure 2-1 Formula of Logarithm Dimming Curve (%) Figure 2-2 Logarithm Dimming Curve DALI log table Input data vs Output Brightness DALI log table Input data vs Output Brightness 100.0 5.0 Dimmer A type 90.0 Dimmer A type 4.5 Dimmer B type 80.0 Dimmer B type 4.0 70.0 Dimmer C type "DALI log (org)" Output Brightness (%) Output Brightness (%) Dimmer C type 60.0 50.0 40.0 30.0 3.5 2.5 2.0 1.5 20.0 1.0 10.0 0.5 0.0 "DALI log (org)" 3.0 0.0 0 50 100 150 200 250 Input data February 10, 2015, S6AL211A21_MN405-00003-1v0-E CONFIDENTIAL 300 0 50 100 150 Input data 13 H A R D W A R E 2.3.2 M A N U A L DALI Linear Curve Figure 2-3 Formula of Linear Dimming Curve (%) Figure 2-4 Linear Dimming Curve DALI linear table Input data vs Output Brightness DALI linear table Input data vs Output Brightness 100.0 5.0 Dimmer A type 90.0 80.0 Dimmer A type 4.5 Dimmer B type Dimmer B type 4.0 70.0 Dimmer C type DALI linear(org) Output Brightness (%) Output Brightness (%) Dimmer C type 60.0 50.0 40.0 30.0 3.5 2.5 2.0 1.5 20.0 1.0 10.0 0.5 0.0 DALI linear(org) 3.0 0.0 0 50 100 150 Input data 14 CONFIDENTIAL 200 250 300 0 5 10 15 Input data S6AL211A21_MN405-00003-1v0-E, February 10, 2015 H A R D W A R E 2.4 M A N U A L Memory Bank This product is integrated 3 Memory Banks which is 16byte made by Non-volatile memory. DALI communication can access to the memory bank of "Read" or "Read / Write". 2 I C communication can access to the "Read / Write" to all memory bank. 2 When I C access the "Read / Write" of all memory bank, it is necessary enter to the direct memory bank access mode by particular settings. Figure 2-5 Structure of Memory Bank I2C Communication Interface in Direct memory bank access mode DALI Communication Interface Read only Memory bank 0 Read Write (0Fh) 16 byte Write Read Memory bank 1 Read Write (in unlocked) 16byte Write Read Memory bank 2 Read Write (in unlocked) 16byte Write February 10, 2015, S6AL211A21_MN405-00003-1v0-E CONFIDENTIAL 15 H A R D W A R E 2.4.1 M A N U A L Direct Memory Bank Access Mode When entry to the direct memory bank access mode, the followings are set to IC. In the normal dimming operation, − Set to I2C interface mode : DIN1 Pin = "L" − Send mode change command by I2C After entry, IC Lights out and stops other functions. When exit to the direct memory bank access mode, Power off the IC. <Note> − Keep the Power supply 5s after executes write command. Figure 2-6 State Flow Power On Initializing operation exit2 Finish All ch Lights out Standby Detect protect condition Normal Dimming operation Protection Communication, Sensor input exit1 Particular setting DALI Memory bank Direct access operation Power Off 16 CONFIDENTIAL S6AL211A21_MN405-00003-1v0-E, February 10, 2015 H A R D W A R E M A N U A L I2C Data Format and Timing 2.4.2 2 Entry and in the direct memory bank access mode, I C data format and timing are shown below. 2 − − − − − I C clock frequency 1set of data receive (Between Start - Stop condition) Address to Data wait time Stop to Start wait time Slave address : 75 kHz : Address + 1byte data : > 2.1 ms : > 2.1 ms : AAh 2 Figure 2-7 I C Data Format and Timing I2C data format and timing I2C data S 1set = address + 1byte data address A 1set 1byte data A P S Wait >2.1ms S Start condition P Stop condition A ACK or NACK 2.4.3 address A Wait >2.1ms 1byte data A P t (s) Wait >2.1ms Command of Direct Memory Bank Access Mode Table 2-14 Command of Direct Memory Bank Access Mode Address Data Address Data Address Data Address Data Remarks Mode change command (Entry Direct memory bank access mode) AAh FAh AAh AAh AAh 50h - - AAh <location1> AAh <location2> AAh <write data> AAh 4Fh - - - - AAh <location1> AAh <location2> ABh <read data> Write data set command AAh 5Ah (*2) Write execute command AAh 4Bh (*1), (*2) Read data command AAh 3Ch *1: Keep the Power supply 5s after executes write command. *2: "write data" can be set to some addresses before "write execute". And, "write data" set address does not need to be continuing. 2.4.4 Memory Map of Memory Bank Table 2-15 Memory Map of Memory Bank I2C DALI Memory Location Bank Address 0 Remarks <Location2> 00h 01h 01h 0Fh (*1) Address of last accessible memory location 01h 01h 02h 0Bh (*2) Checksum of memory bank 0 02h 01h 03h 02h (*1) Number of last accessible memory bank 03h 01h 04h FFh GTIN byte 0 (MSB) 04h 01h 05h FFh GTIN byte 1 05h 01h 06h FFh GTIN byte 2 06h 01h 07h FFh GTIN byte 3 07h 01h 08h FFh GTIN byte 4 February 10, 2015, S6AL211A21_MN405-00003-1v0-E CONFIDENTIAL Default Data <Location1> 17 H A R D W A R E I2C DALI Memory Location Bank Address 0 1 2 M A N U A L Default Data Remarks <Location1> <Location2> 08h 02h 01h FFh GTIN byte 5 09h 02h 02h FFh Control gear firmware version (major) 0Ah 02h 03h FFh Control gear firmware version (minor) 0Bh 02h 04h FFh Serial number byte 1 (MSB) 0Ch 02h 05h FFh Serial number byte 2 0Dh 02h 06h FFh Serial number byte 3 0Eh 02h 07h FFh Serial number byte 4 0Fh 02h 08h FFh Additional control gear information 00h 03h 01h 0Fh (*1) Address of last accessible memory location 01h 03h 02h 0Eh (*2) Checksum of memory bank 1 02h 03h 03h FFh Memory bank 1 lock byte (read-only if not 55h) 03h 03h 04h FFh OEM GTIN byte 0 (MSB) 04h 03h 05h FFh OEM GTIN byte 1 05h 03h 06h FFh OEM GTIN byte 2 06h 03h 07h FFh OEM GTIN byte 3 07h 03h 08h FFh OEM GTIN byte 4 08h 04h 01h FFh OEM GTIN byte 5 09h 04h 02h FFh OEM serial number byte 1 (MSB) 0Ah 04h 03h FFh OEM serial number byte 2 0Bh 04h 04h FFh OEM serial number byte 3 0Ch 04h 05h FFh OEM serial number byte 4 0Dh 04h 06h FFh Subsystem (bit 4 to 7), Device number (bit 0 to 3) 0Eh 04h 07h FFh Lamp type number (lockable) 0Fh 04h 08h FFh Lamp type number 00h 05h 01h 0Fh (*1) Address of last accessible memory location 01h 05h 02h 0Eh (*2) Checksum of memory bank 2 02h 05h 03h FFh 03h 05h 04h FFh 04h 05h 05h FFh 05h 05h 06h FFh 06h 05h 07h FFh 07h 05h 08h FFh 08h 06h 01h FFh 09h 06h 02h FFh 0Ah 06h 03h FFh 0Bh 06h 04h FFh 0Ch 06h 05h FFh 0Dh 06h 06h FFh 0Eh 06h 07h FFh 0Fh 06h 08h FFh Memory bank 1 lock byte (read-only if not 55h) For free use *1: Do not change data 2 2 *2: When writing a memory bank by I C, it is necessary to write check sum value by I C. 2 The check sum calculator does not work in I C. 18 CONFIDENTIAL S6AL211A21_MN405-00003-1v0-E, February 10, 2015 H A R D W A R E M A N U A L 3. Major Changes Page Section Change Results Revision 1.0 - - February 10, 2015, S6AL211A21_MN405-00003-1v0-E CONFIDENTIAL Initial release 19 H A R D W A R E 20 CONFIDENTIAL M A N U A L S6AL211A21_MN405-00003-1v0-E, February 10, 2015 H A R D W A R E M A N U A L MN405-00003-1v0-E Spansion • HARDWARE MANUAL S6AL211A21 ASSP 4ch LED Driver IC for Intelligent Lighting DALI interface, Input Voltage 24V, Dimming type B S6AL211 Series February 2015 Rev. 1.0 Published: Spansion Inc. Edited: Communications February 10, 2015, S6AL211A21_MN405-00003-1v0-E CONFIDENTIAL Communicatio 21 H A R D W A R E M A N U A L Colophon The products described in this document are designed, developed and manufactured as contemplated for general use, including without limitation, ordinary industrial use, general office use, personal use, and household use, but are not designed, developed and manufactured as contemplated (1) for any use that includes fatal risks or dangers that, unless extremely high safety is secured, could have a serious effect to the public, and could lead directly to death, personal injury, severe physical damage or other loss (i.e., nuclear reaction control in nuclear facility, aircraft flight control, air traffic control, mass transport control, medical life support system, missile launch control in weapon system), or (2) for any use where chance of failure is intolerable (i.e., submersible repeater and artificial satellite). Please note that Spansion will not be liable to you and/or any third party for any claims or damages arising in connection with above-mentioned uses of the products. Any semiconductor devices have an inherent chance of failure. You must protect against injury, damage or loss from such failures by incorporating safety design measures into your facility and equipment such as redundancy, fire protection, and prevention of over-current levels and other abnormal operating conditions. If any products described in this document represent goods or technologies subject to certain restrictions on export under the Foreign Exchange and Foreign Trade Law of Japan, the US Export Administration Regulations or the applicable laws of any other country, the prior authorization by the respective government entity will be required for export of those products. Trademarks and Notice The contents of this document are subject to change without notice. This document may contain information on a Spansion product under development by Spansion. Spansion reserves the right to change or discontinue work on any product without notice. The information in this document is provided as is without warranty or guarantee of any kind as to its accuracy, completeness, operability, fitness for particular purpose, merchantability, non-infringement of third-party rights, or any other warranty, express, implied, or statutory. Spansion assumes no liability for any damages of any kind arising out of the use of the information in this document. ® ® ® TM Copyright © 2015 Spansion All rights reserved. Spansion , the Spansion logo, MirrorBit , MirrorBit Eclipse , TM TM TM ORNAND , Easy DesignSim , Traveo and combinations thereof, are trademarks and registered trademarks of Spansion LLC in the United States and other countries. Other names used are for informational purposes only and may be trademarks of their respective owners. 22 CONFIDENTIAL S6AL211A21_MN405-00003-1v0-E, February 10, 2015