S6SAL211A94SA1001 Intelligent LED Lighting Starter

S6SAL211A94SA1001
Intelligent LED Lighting Starter Kit for BLE Communication
4ch 10W LED Driver Board
Operation Manual
Publication Number S6SAL211A94SA1001_SS901-00039
CONFIDENTIAL
Revision 1.0
Issue Date June 12, 2015
v1.1
O P E R A T I O N
M A N U A L
Preface
This manual explains how to use the evaluation board. Be sure to read this manual before using the product.
For this product, please consult with sales representatives or support representatives.
Handling and Use
Handling and use of this product and notes regarding its safe use are described in the manuals.
Follow the instructions in the manuals to use this product.
Keep this manual at hand so that you can refer to it anytime during use of this product.
Notice on this Document
All information included in this document is current as of the date it is issued. Such information is subject to
change without any prior notice.
Please confirm the latest relevant information with the sales representatives.
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Caution of the Products Described in this Document
The following precautions apply to the product described in this manual.
WARNING
WARNING
Electric Shock,
Damage
Electric Shock,
Damage
Indicates a potentially hazardous situation which could result in death or serious injury and/or a
fault in the user’s system if the product is not used correctly.
Do not look directly at LED. There is a possibility that your eye is hurt.
Before performing any operation described in this manual, turn off all the power supplies to the
system.
Performing such an operation with the power on may cause an electric shock or device fault.
Once the product has been turned on, do not touch any metal part of it.
Doing so may cause an electric shock or device fault.
Indicates the presence of a hazard that may cause a minor or moderate injury, damages to this
CAUTION
product or devices connected to it, or may cause to loose software resources and other
properties such as data, if the device is not used appropriately.
Before moving the product, be sure to turn off all the power supplies and unplug the cables.
Cuts, Damage
Watch your step when carrying the product. Do not use the product in an unstable location such
as a place exposed to strong vibration or a sloping surface. Doing so may cause the product to
fall, resulting in an injury or fault.
Cuts
The product contains sharp edges that are left unavoidably exposed, such as jumper plugs.
Handle the product with due care not to get injured with such pointed parts.
Do not place anything on the product or expose the product to physical shocks. Do not carry the
Damage
product after the power has been turned on.
Doing so may cause a malfunction due to overloading or shock.
Since the product contains many electronic components, keep it away from direct sunlight, high
Damage
temperature, and high humidity to prevent condensation. Do not use or store the product where
it is exposed to much dust or a strong magnetic or electric field for an extended period of time.
Inappropriate operating or storage environments may cause a fault.
Damage
Use the product within the ranges given in the specifications.
Operation over the specified ranges may cause a fault.
To prevent electrostatic breakdown, do not let your finger or other object come into contact with
Damage
the metal parts of any of the connectors. Before handling the product, touch a metal object
(such as a door knob) to discharge any static electricity from your body.
When turning the power on or off, follow the relevant procedure as described in this document.
Damage
Before turning the power on, in particular, be sure to finish making all the required connections.
Furthermore, be sure to configure and use the product by following the instructions given in this
document. Using the product incorrectly or inappropriately may cause a fault.
Because the product has no casing, it is recommended that it be stored in the original
Damage
packaging. Transporting the product may cause a damage or fault. Therefore, keep the
packaging materials and use them when re-shipping the product.
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Table of Contents
1. Description ............................................................................................................................................... 7
2. Evaluation Board Specification .............................................................................................................. 8
3. Pin Descriptions ...................................................................................................................................... 8
3.1 Input/Output Connecter Descriptions.............................................................................................. 8
3.2 Switch Descriptions ........................................................................................................................ 8
4. Setup and Verification ............................................................................................................................. 9
4.1 Contents in a Package ................................................................................................................... 9
4.2 Evaluation with BLE Communication .............................................................................................. 9
4.2.1 Operation ......................................................................................................................... 10
4.2.1.1
Connection of the Evaluation Board and LED ................................................... 11
4.2.1.2
Setup with BLE Communication ....................................................................... 12
4.3 Function of Application ................................................................................................................. 13
4.3.1 "SEEKBER" Tab................................................................................................................ 13
4.3.2 "TABLE" Tab ..................................................................................................................... 13
4.3.3 "SCENE" Tab .................................................................................................................... 14
4.3.4 "SENSOR" Tab ................................................................................................................. 14
4.3.4.1
Example of Sensor Use .................................................................................... 15
4.3.4.2
S6Al211A94 Control Command ........................................................................ 15
4.3.4.3
BLE Module Control Command ........................................................................ 16
4.4 How to Do When LED Lighting can not be Controlled. ................................................................. 17
5. Layout ..................................................................................................................................................... 18
5.1 Component Layout ....................................................................................................................... 18
5.2 Wiring Layout ............................................................................................................................... 19
6. Circuit Schematic .................................................................................................................................. 20
7. Component List ..................................................................................................................................... 23
8. Property Data ......................................................................................................................................... 26
9. Board Picture ......................................................................................................................................... 29
10. Ordering Information ............................................................................................................................. 30
11. Major Changes ....................................................................................................................................... 30
Figures
Figure 1-1 Board Outline ............................................................................................................................ 7
Figure 2-1 Evaluation Board Specification ................................................................................................. 8
Figure 4-1 Contents Picture ....................................................................................................................... 9
Figure 4-2 Board Connection ................................................................................................................... 10
Figure 4-3 Connection of the Evaluation Board and LED .......................................................................... 11
Figure 4-4 Example of Sensor Use .......................................................................................................... 15
Figure 5-1 Evaluation Board Component Layout ..................................................................................... 18
Figure 5-2 Evaluation Board Wiring Layout .............................................................................................. 19
Figure 6-1 Evaluation Board Circuit Schematic ........................................................................................ 20
Figure 6-2 Evaluation Board Circuit Schematic ........................................................................................ 21
Figure 6-3 Evaluation Board Circuit Schematic ........................................................................................ 22
Figure 8-1 Switching Waveform ............................................................................................................... 26
Figure 8-2 Switching Waveform ............................................................................................................... 27
Figure 8-3 Switching Waveform ............................................................................................................... 28
Figure 9-1 Evaluation Board Picture......................................................................................................... 29
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Tables
Table 3-1 Input/Output Pin Descriptions ..................................................................................................... 8
Table 3-2 Switch Descriptions .................................................................................................................... 8
Table 4-1 S6SAL211A94SA1001 Contents List .......................................................................................... 9
Table 4-2 BLEGET Command .................................................................................................................. 16
Table 4-3 BLESET Command .................................................................................................................. 16
Table 7-1 Evaluation Board Component List ............................................................................................ 23
Table 10-1 Ordering Information ............................................................................................................... 30
Table 11-1 Major Changes........................................................................................................................ 30
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S6SAL211A94SA1001
Intelligent LED Lighting Starter Kit for BLE Communication
4ch 10W LED Driver Board
Operation Manual
1.
Description
S6SAL211A94SA1001 is the starter kit tool for BLE (*1) communication.
The tool has one evaluation board, this board implements S6AL211A94, and LED driver controlled by BLE
communication.
It is necessary to prepare AC power cable, Android terminal (*2), Application software, LED module and
connection cable.
®
*1: BLE: Bluetooth Low Energy
*2: Prepare an Android terminal with Android OS 4.4.2 or 4.4.4.
Figure 1-1 Board Outline
AC 85V-264V
LED,Thermistor
S6SAL211A94SA1001
AC power cable
Android terminal
*Android4.4.2 or 4.4.4
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2.
M A N U A L
Evaluation Board Specification
Figure 2-1 Evaluation Board Specification
Item
Input voltage (with TUHS10F24)
Output LED voltage
Symbol
Min.
VINAC
85
VLEDout
0
Typ.
Max.
Unit
264
VRMS
24
V
18
ILEDout(W)
290
ILEDout(R)
Output LED current
-
ILEDout(G)
-
ILEDout(B)
Board size
3.
140
180
mA
90
-
58  93
mm
Pin Descriptions
3.1
Input/Output Connecter Descriptions
Table 3-1 Input/Output Pin Descriptions
Connecter Symbol
Function Description
CN_AC
I
AC power supply terminal
ACDC_OUT
O
24V AC/DC module output
ACDC_GND
-
GND
CN009
I/O
CH1 - CH4 LED , thermistor terminal
MS_3V
O
3V power supply terminal for motion sensor
MS_IN
I
Input terminal for motion sensor
MS_GND
-
GND terminal for motion sensor
LSp
O
3V power supply terminal for Illumination sensor
LSm
I
Input terminal for Illumination sensor
LSg
-
GND terminal for Illumination sensor
CN061
3.2
I/O
I/O
JTAG terminal for BLE module
Switch Descriptions
Table 3-2 Switch Descriptions
Switch
SW062
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Description
Reset push switch for BLE module
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4.
M A N U A L
Setup and Verification
4.1
Contents in a Package
Table 4-1 S6SAL211A94SA1001 Contents List
No.
Contents
Description
Quantity
Notes
1
S6SAL211A94-BLE-SA1
Evaluation board of 4CH 10W with S6AL211A94
1
-
2
Leaflet
Described startup information
2
English, Japanese
Figure 4-1 Contents Picture
1
4.2
2
Evaluation with BLE Communication
2
Using Items for Evaluation with I C Control
 Evaluation board
 AC power cable
 Android terminal with Android OS 4.4.2 or 4.4.4.
 Application software
 LED module(5 series  4ch)
 Connection cable
1pic (*1)
1pic (*2)
1pic (*2)
1pic (*3)
1set (*2)
1set (*2)
*1: Included in a package.
*2: Please prepare. Refer to 4.2.1 Operation.
*3: Please download it from our device home page.
URL:
http://www.spansion.com/Products/Analog/Power-Management-ICs/Pages/category-led.aspx#S6A
L211A
S6AL211A94: BLE Application software file BLExLED.apk in S6AL211_BLExLED.cab
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4.2.1
M A N U A L
Operation
WARNING
1.
2.
3.
4.
5.
6.
Do not look directly at LED. There is a possibility that your eye is hurt.
Connect CN009 of the evaluation board and LED by connection cable. (*1)
Set some attributes in the application of Android terminal. (*2)
Connect AC plug of the evaluation board to AC power supply.
Connect Android terminal to BLE module by BLE communication. (*2)
When connection succeeds, it is possible to make them do various movement by application. (*3)
When ending operation, make the brightness level of the LED "0" and tap "Disconnect" button of "HOME"
tab and cut power supply.
Figure 4-2 Board Connection
Evaluation Board
CN009
AC 85V-264V
LED,Thermistor
(*1)
AC power cable
Connection cable(*1)
Android
terminal
*1: Connect LED to all CH from CN009. Refer to 4.2.1.1 Connection of S6AL211A94-BLE-SA1 and LED.
*2: Refer to 4.2.1.2 Setup with BLE Communication.
*3: Refer to 4.3 Function of Application.
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4.2.1.1
M A N U A L
Connection of the Evaluation Board and LED
Figure 4-3 Connection of the Evaluation Board and LED
2.54mm 10pin ×2
Connector
CN009
-TH4 20
Evaluation board
-LED4 18
NC 16
-TH3 14
-LED3 12
(*2)
19 +TH4
CH4: Blue
R
17 +LED4
15 NC
(*1)
(*2)
13 +TH3
CH3: Green
R
11 +LED3
-TH2 10
9 +TH2
-LED2 8
7 +LED2
NC 6
LED,Thermistor
(*2)
(*1)
CH2: Red
R
(*1)
5 NC
(*2)
-TH1 4
-LED1 2
3 +TH1
CH1: White
R
1 +LED1
(*1)
*1: Connect LED to CN009.
Driver's output channel and color of LED are fixing by application software.
To indicate correct color, connect each channel exactly.
Specification of LED module and resistor: LED (5-series) + resistor
White: IF ≥ 1A, VF ≈ 3 V
Ex: LUW CR7P(OSRAM)
Red: IF ≥ 1A, VF ≈ 2.2 V
Ex: LR CP7P(OSRAM)
Green: IF ≥ 1A, VF ≈ 3.2 V
Ex: LT CP7P(OSRAM)
Blue: IF ≥ 1A, VF ≈ 3.2V
Ex: LB CP7P(OSRAM)
R: 10Ω 2W
Be careful about polarity.
*2: Thermistor (+TH,-TH) is an option. Even if that isn't connected, a board operates.
Ex: NTCG104EF104FT1 (TDK)
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4.2.1.2
M A N U A L
Setup with BLE Communication
1. Start "BLExLED" by tapping icon in android tablet. (In advance, set on Bluetooth in Android OS)
Set some attributes in the application. (Device Name #0)
2. Connect AC plug to AC power supply.
3. Tap "Connect" button in "HOME" tab. If connection succeeds, "BLE Connection SUCCESS!" is indicated
in the display.
4. Refer to 4.3 Function of Application and operate.
Starting App
Setting of the Attribute (In Setting Page)
Cypress
Cypress
Cypress Demo
"Cypress Demo"
← Check
Return to “HOME” tab
Connecting to BLE Module with BLE Communication
Cypress
Cypress
Cypress
Cypress
Cypress
Cypress
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4.3 Function of Application
4.3.1
"SEEKBER" Tab
It is possible to change the brightness of each LED by swiping level of seek bar.
When releasing a finger, brightness of LED changes.
Maximum supply power of AC/DC module is 10.8W.Total maximum Output power is
over 10W.
When lighting White LED, make the lighting level of RGB LED "0".
When lighting RGB LED, make the lighting level of White LED "0".
4.3.2
"TABLE" Tab
It's possible to change the brightness of the White LED by swiping level of White Seek bar.
It's possible to change color brightness of the RGB LED by swiping level of Strength Seek
bar.
It's possible to change the color of LED by tapping color table.
When Strength Seek bar level is "0", RGB LED goes out.
Maximum supply power of AC/DC module is 10.8W.Total maximum Output power is over
10W.
When lighting White LED, make the lighting level of RGB LED "0".
When lighting RGB LED, make the lighting level of White LED "0".
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4.3.3
M A N U A L
"SCENE" Tab
"Preset Lighting" is operated by this table.
Reading: Bright white lighting
Dinner: Warm white lighting
CYPRESS: Cypress blue color
ALERT: Switching white and red (Sequence per second)
Wakeup: gradually brighter (5 seconds sequence)
Rainbow: Automatic color control
Stop: Stop sequence of "ALERT", "Wake up" and "Rainbow".
4.3.4
"SENSOR" Tab
It's possible to set a sensor setting and dimming curve at this table.
Dimming curve type select "Linear" or "Log"
It's possible to change the brightness of the white LED by swiping level of white seek
bar.
Fade Time: Setting of fade time
When installing a sensor, below is used. (*1)
Motion: Motion sensor on/off, stand-by detection time select "10sec" or "5min"
Illuminance: Illuminance sensor on/off (*2)
Common: It's used for setting change. The following item can be chosen by a
pulldown.
QUERYS: S6Al211A94 memory reading command (*3)
MEMSET: S6Al211A94 memory writing in command (*3)
BLEGET: BLE module memory reading command (*4)
BLESET: BLE module memory writing in command (*4)
*1: Refer to 4.3.4.1 Example of Sensor Use.
*2: When using a motion sensor, illumination sensor can not be used.
*3: Refer to 4.3.4.2 S6Al211A94 Control Command.
*4: Refer to 4.3.4.3 BLE Module Control Command.
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4.3.4.1
M A N U A L
Example of Sensor Use
When using the sensor function of the application, prepare the outside sensor parts.
The recommended parts are as follows.
Figure 4-4 Example of Sensor Use
Illuminance Sensor
C
3V
Evaluation board
LSp
C067
R061
S6AL211A94
LSg
48:VO
39:SENSE3/ADD3
0.1 μF
Ex: NJL7502L
JRC
C065
R076
Ex: EKMB130111
Panasonic
6.5 kΩ
Vdd
MS_3V
40:SENSE4/ADD4
4.3.4.2
E
LSm
Motion Sensor
0.1 μF
MS_IN
MS_GND
OUT
GND
S6Al211A94 Control Command
QUERYS: "1st argument: read address" is input, and "Send" button is pushed.
Data or "TRUE" or "FALSE" of memory is indicated.
MEMSET: "1st argument: write address" and "2nd argument: write data" is input, and "Send" button is
pushed.
"OK" is indicated.
Note: Refer to hardware manual of S6AL211A94 for details of the address and write data.
Ex: QUERYS
Ex: MEMSET
Read address
Write address
Read data
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Write data
Data transmission completion
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4.3.4.3
M A N U A L
BLE Module Control Command
Table 4-2 BLEGET Command
Command
1st Argument
2nd Argument
Address
Data
00
01
01
Response
Turning on the lights threshold
00
BLEGET
Function
reading of illumination sensor
HH LL<CR><LF>
Turning off the lights threshold
(*1)
reading of illumination sensor
-
Reply interval time reading of
HH LL<CR><LF>
illumination sensor
(*2)
Initial Value
00 02
00 08
00 05
Table 4-3 BLESET Command
Command
1st
2nd
3rd
4th
Argument
Argument
Argument
Argument
Address
Address/Data
Data
Data
HH (*1)
BLESET
LL (*1)
01
01
HH (*2)
Response
Turning on the lights threshold writing of
00
00
Function
illumination sensor
Turning off the lights threshold writing of
OK<CR><LF>
illumination sensor
LL (*2)
-
Reply interval time writing of illumination
sensor
OK<CR><LF>
*1: Threshold (hexadecimal number). HH: Upper 2bit data, LL: Lower 8bit data
Only lower rank 2bit is effective for HH data.
Set Turning on the lights threshold smaller than Turning off the lights threshold.
*2: Reply interval time (hexadecimal number). HH: Upper 2bit data, LL: Lower 8bit data
Unit: 0.1 ms, Setting area: 0.1 ms to 6553.5 ms
Ex: BLEGET
Ex: BLESET
Read address
Write address
Read data
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Write data
Data transmission completion
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4.4
M A N U A L
How to Do When LED Lighting can not be Controlled.
1. Pull out AC plug
2. Exit "BLExLED" application
3. Turn off Bluetooth indicator in Android OS.
4. Turn on Bluetooth indicator in Android OS.
5. Connect AC plug to electrical outlet.
6. Start "BLExLED".
(Continue as above-mentioned)
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5.
M A N U A L
Layout
5.1
Component Layout
Figure 5-1 Evaluation Board Component Layout
Board size of 10W LED driver: 58mm x 93mm
Layer1 (Top View)
Layer4 (Top View)
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5.2
M A N U A L
Wiring Layout
Figure 5-2 Evaluation Board Wiring Layout
Layer 1 (Top View)
Layer 2 (Top View)
Layer 3 (Top View)
Layer 4 (Top View)
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6.
M A N U A L
Circuit Schematic
Figure 6-1 Evaluation Board Circuit Schematic
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Figure 6-2 Evaluation Board Circuit Schematic
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M A N U A L
Figure 6-3 Evaluation Board Circuit Schematic
CH1
CH3
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CH2
CH4
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7.
M A N U A L
Component List
Table 7-1 Evaluation Board Component List
Rated
Rated
Voltage(V)
Current(A)
10 μF
35
-
-
4.7 μF
35
-
-
0.1 μF
50
-
-
4.7 μF
35
-
-
TDK
4.7 μF
35
-
-
TDK
100 pF
50
-
-
C1608CH1H101J
TDK
100 pF
50
-
-
EKMG350ELL471MJ16S
NIPPON-CHEMI-CON
470 μF
35
-
-
No.
Component
Parts Number
Vendor
1
C001
C2012X5R1V106K125AC
TDK
2
C002
C1608X5R1V475K
TDK
3
C003
C1608X5R1H104K080AA
TDK
4
C004
C1608X5R1V475K
TDK
5
C005
C1608X5R1V475K
6
C006
C1608CH1H101J
7
C007
8
C009
Value
Remarks
9
C061
C1608X5R1H104K080AA
TDK
0.1 μF
50
-
-
10
C065
C1608X5R1H104K080AA
TDK
0.1 μF
50
-
NMT
11
C067
C1608X5R1H104K080AA
TDK
0.1 μF
50
-
-
12
C068
C1608CH1H010C
TDK
1 pF
50
-
-
13
C069
C1608CH1H010C
TDK
1 pF
50
-
-
14
C101-1
C3216X5R1V475K160AB
TDK
4.7 μF
35
-
-
15
C102-1
C3225X5R1H106K
TDK
10 μF
50
-
-
16
C102-3
C1608CH1H102J
TDK
0.001 μF
50
-
NMT
17
C120
C1608X5R1H104K080AA
TDK
0.1 μF
50
-
NMT
18
C201-1
C3216X5R1V475K160AB
TDK
4.7 μF
35
-
-
19
C202-1
C3225X5R1H106K
TDK
10 μF
50
-
-
20
C202-3
C1608CH1H102J
TDK
0.001 μF
50
-
NMT
21
C220
C1608X5R1H104K080AA
TDK
0.1 μF
50
-
NMT
22
C301-1
C3216X5R1V475K160AB
TDK
4.7 μF
35
-
-
23
C302-1
C3225X5R1H106K
TDK
10 μF
50
-
-
24
C302-3
C1608CH1H102J
TDK
0.001 μF
50
-
NMT
25
C320
C1608X5R1H104K080AA
TDK
0.1 μF
50
-
NMT
26
C401-1
C3216X5R1V475K160AB
TDK
4.7 μF
35
-
-
27
C402-1
C3225X5R1H106K
TDK
10 μF
50
-
-
28
C402-3
C1608CH1H102J
TDK
0.001 μF
50
-
NMT
29
C420
C1608X5R1H104K080AA
TDK
0.1 μF
50
-
NMT
30
CN009
M20-9981045
Harwin Inc
210 pin
-
3
-
31
CN061
TSW-104-14-L-S
Samtec
-
550
7.6
-
32
CN062
FTSH-105-01-F-D-K-ND
Samtec
-
-
-
NMT
33
CN_AC
ML-2100-2P
SATOPARTS
-
300
7
-
34
D101
SS23
FAIRCHILD
-
30
2
-
35
D201
SS23
FAIRCHILD
-
30
2
-
36
D301
SS23
FAIRCHILD
-
30
2
-
37
D401
SS23
FAIRCHILD
-
30
2
-
38
F001
RK73Z1J
KOA
0Ω
-
1
-
39
L101
CLF10040T-221M
TDK
220 μH
-
700 m
-
40
L201
CLF10040T-221M
TDK
220 μH
-
700 m
-
41
L301
CLF10040T-221M
TDK
220 μH
-
700 m
-
42
L401
CLF10040T-221M
TDK
220 μH
-
700 m
-
43
LED001
OSHR1608C1A
OptoSupply
-
-
30 m
NMT
44
M001
S6AL211A94
Cypress
-
-
-
-
June 12, 2015, S6SAL211A94SA1001_SS901-00039-1v0-E
CONFIDENTIAL
23
V1.1
O P E R A T I O N
No.
Component
Parts Number
M A N U A L
Vendor
Value
Rated
Rated
Voltage(V)
Current(A)
Remarks
45
M011
TUHS10F24
COSEL
24 V
-
-
-
46
M061
MBH7BTZ02
FUJITSU
-
-
-
-
47
Q101
FDC658AP
FAIRCHILD
-
30
4
-
48
Q102
FDC8886
FAIRCHILD
-
30
6.5
-
49
Q201
FDC658AP
FAIRCHILD
-
30
4
-
50
Q202
FDC8886
FAIRCHILD
-
30
6.5
-
51
Q301
FDC658AP
FAIRCHILD
-
30
4
-
52
Q302
FDC8886
FAIRCHILD
-
30
6.5
-
53
Q401
FDC658AP
FAIRCHILD
-
30
4
-
54
Q402
FDC8886
FAIRCHILD
-
30
6.5
-
55
R003
RR0816P-104-D
SSM
100 kΩ
-
-
-
56
R004
RR0816P-123-D
SSM
12 kΩ
-
-
NMT
57
R072
RR0816P-101-D
SSM
100Ω
-
-
-
58
R076
RR0816P-274-D
SSM
270 kΩ
-
-
-
59
R101
RK73H1JTTD2R20F
KOA
2.2Ω
-
-
-
60
R102
RK73H1JTTD1R00F
KOA
1Ω
-
-
-
61
R103
RK73Z1J
KOA
0Ω
-
1
-
62
R104
RK73H1JTTD1004F
KOA
1 MΩ
-
-
NMT
63
R106
RK73H1JTTD1004F
KOA
1 MΩ
-
-
NMT
64
R107
RK73Z1J
KOA
0Ω
-
1
-
65
R120
RR0816P-752-D
SSM
7.5 kΩ
-
-
-
66
R201
RK73H1JTTD2R20F
KOA
2.2Ω
-
-
-
67
R202
RK73H1JTTD3R90F
KOA
3.9Ω
-
-
-
68
R203
RK73Z1J
KOA
0Ω
-
1
-
69
R204
RK73H1JTTD1004F
KOA
1 MΩ
-
-
NMT
70
R206
RK73H1JTTD1004F
KOA
1 MΩ
-
-
NMT
71
R207
RK73Z1J
KOA
0Ω
-
1
-
72
R220
RR0816P-752-D
SSM
7.5 kΩ
-
-
-
73
R301
RK73H1JTTD2R20F
KOA
2.2Ω
-
-
-
74
R302
RK73H1JTTD2R20F
KOA
2.2Ω
-
-
-
75
R303
RK73Z1J
KOA
0Ω
-
1
-
76
R304
RK73H1JTTD1004F
KOA
1 MΩ
-
-
NMT
77
R306
RK73H1JTTD1004F
KOA
1 MΩ
-
-
NMT
78
R307
RK73Z1J
KOA
0Ω
-
1
-
79
R320
RR0816P-752-D
SSM
7.5 kΩ
-
-
-
80
R401
RK73H1JTTD2R20F
KOA
2.2Ω
-
-
-
81
R402
RK73H1JTTD2R20F
KOA
2.2Ω
-
-
NMT
82
R403
RK73Z1J
KOA
0Ω
-
1
-
83
R404
RK73H1JTTD1004F
KOA
1 MΩ
-
-
NMT
84
R406
RK73H1JTTD1004F
KOA
1 MΩ
-
-
NMT
85
R407
RK73Z1J
KOA
0Ω
-
1
-
86
R420
RR0816P-752-D
SSM
7.5 kΩ
-
-
-
87
R421
RK73Z1J
KOA
0Ω
-
1
-
88
SW062
SKRPACE010
ALPS
-
-
50 m
-
89
X061
ABS10-32r768kHz
ABRACON
32.768 kHz
-
-
-
24
CONFIDENTIAL
S6SAL211A94SA1001_SS901-00039-1v0-E, June 12, 2015
v1.1
O P E R A T I O N
M A N U A L
TDK
:
TDK Corporation
NIPPON-CHEMI-CON
:
Nippon Chemi-Con Corporation
Harwin Inc
:
Harwin Inc
Samtec
:
Samtec, Inc.
SATOPARTS
:
SATO PARTS CO.,LTD
FAIRCHILD
:
Fairchild Semiconductor International, Inc.
KOA
:
KOA Corporation
SSM
:
Susumu Co., Ltd
OptoSupply
:
OptoSupply Limited
Cypress
:
Cypress Semiconductor Corp
COSEL
:
COSEL CO., LTD.
FUJITSU
:
FUJITSU COMPONENT LIMITED
ALPS
:
Alps Electric Co., Ltd.
ABRACON
:
Abracon Corporation
NMT: No mount.
These components are compliant with RoHS, and please ask each vendor for details if necessary.
June 12, 2015, S6SAL211A94SA1001_SS901-00039-1v0-E
CONFIDENTIAL
25
V1.1
O P E R A T I O N
8.
M A N U A L
Property Data
Figure 8-1 Switching Waveform
CH1 100% Dimming
CH2 100% Dimming
VINAC =100VRMS, ILEDout(W) = 290 mA
VINAC =100VRMS, ILEDout(R) = 140 mA
LED: LUW CR7P (5 series + 10Ω)
LED: LR CP7P (5 series + 10Ω)
ACTUAL LEVEL = 255(Line)
ACTUAL LEVEL = 255(Line)
CH1: LED current (ILEDout(W)), 100 mA/div
CH1: LED current (ILEDout(R)), 50 mA/div
CH2: LEDp voltage (VLEDout(W)), 2V/div
CH2: LEDp voltage (VLEDout(R)), 2V/div
CH3: Switching node voltage(W), 5V/div
CH3: Switching node voltage(R), 5V/div
CH3 100% Dimming
CH4 100% Dimming
VINAC =100VRMS, ILEDout(G) = 180 mA
VINAC =100VRMS, ILEDout(B) = 90 mA
LED: LT CP7P (5 series + 10Ω)
LED: LB CP7P (5 series + 10Ω)
ACTUAL LEVEL = 255(Line)
ACTUAL LEVEL = 255(Line)
CH1: LED current (ILEDout(G)), 50 mA/div
CH1: LED current (ILEDout(B)), 20 mA/div
CH2: LEDp voltage (VLEDout(G)), 2V/div
CH2: LEDp voltage (VLEDout(B)), 2V/div
CH3: Switching node voltage(G), 5V/div
CH3: Switching node voltage(B), 5V/div
26
CONFIDENTIAL
S6SAL211A94SA1001_SS901-00039-1v0-E, June 12, 2015
v1.1
O P E R A T I O N
M A N U A L
Figure 8-2 Switching Waveform
CH1 10% Dimming
CH2 10% Dimming
VINAC =100VRMS, ILEDout(W) = 29 mA
VINAC =100VRMS, ILEDout(R) = 14 mA
LED: LUW CR7P (5 series + 10Ω)
LED: LR CP7P (5 series + 10Ω)
ACTUAL LEVEL = 26(Line)
ACTUAL LEVEL = 26(Line)
CH1: LED current (ILEDout(W)), 10 mA/div
CH1: LED current (ILEDout(R)), 5 mA/div
CH2: LEDp voltage (VLEDout(W)), 2V/div
CH2: LEDp voltage (VLEDout(R)), 2V/div
CH3: Switching node voltage(W), 5V/div
CH3: Switching node voltage(R), 5V/div
CH3 10% Dimming
CH4 10% Dimming
VINAC =100VRMS, ILEDout(G) = 18 mA
VINAC =100VRMS, ILEDout(B) = 9 mA
LED: LT CP7P (5 series + 10Ω)
LED: LB CP7P (5 series + 10Ω)
ACTUAL LEVEL = 26(Line)
ACTUAL LEVEL = 26(Line)
CH1: LED current (ILEDout(G)), 5 mA/div
CH1: LED current (ILEDout(B)), 2 mA/div
CH2: LEDp voltage (VLEDout(G)), 2V/div
CH2: LEDp voltage (VLEDout(B)), 2V/div
CH3: Switching node voltage(G), 5V/div
CH3: Switching node voltage(B), 5V/div
June 12, 2015, S6SAL211A94SA1001_SS901-00039-1v0-E
CONFIDENTIAL
27
V1.1
O P E R A T I O N
M A N U A L
Figure 8-3 Switching Waveform
CH1 1% Dimming
CH2 1% Dimming
VINAC =100VRMS, ILEDout(W) = 2.9 mA
VINAC =100VRMS, ILEDout(R) = 1.4 mA
LED: LUW CR7P (5 series + 10Ω)
LED: LR CP7P (5 series + 10Ω)
ACTUAL LEVEL = 2(Line)
ACTUAL LEVEL = 2(Line)
CH1: LED current (ILEDout(W)), 1 mA/div
CH1: LED current (ILEDout(R)), 1 mA/div
CH2: LEDp voltage (VLEDout(W)), 2V/div
CH2: LEDp voltage (VLEDout(R)), 2V/div
CH3: Switching node voltage(W), 5V/div
CH3: Switching node voltage(R), 5V/div
CH3 1% Dimming
CH4 1% Dimming
VINAC =100VRMS, ILEDout(G) = 1.8 mA
VINAC =100VRMS, ILEDout(B) = 0.9 mA
LED: LT CP7P (5 series + 10Ω)
LED: LB CP7P (5 series + 10Ω)
ACTUAL LEVEL = 2(Line)
ACTUAL LEVEL = 2(Line)
CH1: LED current (ILEDout(G)), 1 mA/div
CH1: LED current (ILEDout(B)), 1 mA/div
CH2: LEDp voltage (VLEDout(G)), 2V/div
CH2: LEDp voltage (VLEDout(B)), 2V/div
CH3: Switching node voltage(G), 5V/div
CH3: Switching node voltage(B), 5V/div
28
CONFIDENTIAL
S6SAL211A94SA1001_SS901-00039-1v0-E, June 12, 2015
v1.1
O P E R A T I O N
9.
M A N U A L
Board Picture
Figure 9-1 Evaluation Board Picture
(Top View)
(Bottom View)
June 12, 2015, S6SAL211A94SA1001_SS901-00039-1v0-E
CONFIDENTIAL
29
V1.1
O P E R A T I O N
M A N U A L
10. Ordering Information
Table 10-1 Ordering Information
Part Number
EVB Revision
Note
S6SAL211A94SA1001
S6SAL211A94-BLE-SA1 Rev3.0
-
11. Major Changes
Table 11-1 Major Changes
Page
Section
Change Results
Revision 1.0
-
30
CONFIDENTIAL
-
Initial release
S6SAL211A94SA1001_SS901-00039-1v0-E, June 12, 2015
v1.1
O P E R A T I O N
M A N U A L
SS901-00039-1v0-E
Cypress  Support Tool Manual
S6SAL211A94SA1001
Intelligent LED Lighting Starter Kit for BLE Communication
4ch 10W LED Driver Board
Operation Manual
June 2015 Rev. 1.0
Published:
Edited:
Cypress Semiconductor Corp.
Communications
June 12, 2015, S6SAL211A94SA1001_SS901-00039-1v0-E
CONFIDENTIAL
31
V1.1
O P E R A T I O N
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 Cypress 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 Cypress
product under development by Cypress. Cypress 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. Cypress assumes no liability for any damages of any kind arising out of the use of
the information in this document.
®
®
Copyright © 2015 Cypress All rights reserved. Cypress, the Cypress logo, Spansion , the Spansion logo, MirrorBit ,
®
TM
TM
TM
TM
MirrorBit Eclipse , ORNAND , Easy DesignSim , Traveo and combinations thereof, are trademarks and registered
trademarks of Cypress Semiconductor Corp. in the United States and other countries. Bluetooth is a trademark of Bluetooth
SIG. Other names used are for informational purposes only and may be trademarks of their respective owners.
32
CONFIDENTIAL
S6SAL211A94SA1001_SS901-00039-1v0-E, June 12, 2015
v1.1