S6SAE100A00VA1001 Energy Harvesting PMIC S6AE10xA Evaluation Board Operation Guide.pdf

S6SAE100A00VA1001
Energy Harvesting PMIC S6AE10xA
Evaluation Board Operation Guide
Doc No. 002-08728 Rev.*A
Cypress Semiconductor
198 Champion Court
San Jose, CA 95134-1709
Phone (USA): 800.858.1810
Phone (Intnl): 408.943.2600
http://www.cypress.com
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S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
2
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.
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
3
Preface
Caution of the Products Described in This Document
The following precautions apply to the product described in this manual.
WARNING
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.
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.
Electric shock,
Once the product has been turned on, do not touch any metal part of it.
Damage
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.
The product contains sharp edges that are left unavoidably exposed, such as jumper plugs.
Cuts
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.
Use the product within the ranges given in the specifications.
Damage
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.
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
4
Table of Contents
1. Description .......................................................................................................................................................................... 6
2. Evaluation Board Specification ............................................................................................................................................ 7
3. Pin and Function Descriptions ............................................................................................................................................. 8
3.1. Input/Output Pin Descriptions ..................................................................................................................................... 8
3.2. Jumper/Switch Setting .............................................................................................................................................. 11
3.3. Output Voltage Setting .............................................................................................................................................. 13
4. Setup and Verification ....................................................................................................................................................... 14
4.1. Contents in a Package .............................................................................................................................................. 14
4.2. Operation .................................................................................................................................................................. 14
4.2.1.
Connection of Indoor Type Solar Cell ............................................................................................................... 14
4.2.2.
Hybrid Connection of Indoor Type Solar Cell and Primary Battery ................................................................... 17
5. Circuit Schematic............................................................................................................................................................... 20
6. Component List ................................................................................................................................................................. 22
7. Components Layout .......................................................................................................................................................... 23
8. Silk and Layout .................................................................................................................................................................. 24
9. Board Splitting ................................................................................................................................................................... 26
10. Ordering Information.......................................................................................................................................................... 27
11. Major Changes .................................................................................................................................................................. 28
Revision History ...................................................................................................................................................................... 29
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
5
1.
Description
The S6SAE100A00VA1001 is the tiny evaluation board for the ultra-low-power energy harvesting PMIC for indoor type solar
cell, S6AE100A series. This evaluation board consists of three independent boards for S6SAE101A, S6SAE102A and
S6SAE103A. This board is capable of supporting life extension of primary battery or becoming battery-less solution, and it is
for evaluation of diverse power management functions used for wireless sensor network.
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
6
2.
Evaluation Board Specification
Table 2-1 Evaluation Board Specification
Parameter
Symbol
Conditions
Min.
Typ.
Max.
Unit
Power supply voltage 1(*1)
VVDD
VDD1,2,3 pin
3.4(*3)
−
5.5
V
Power supply voltage 2
VVBAT
VBAT1 pin (S6AE101A)
3.4(*3)
−
5.5
V
Output voltage 1
VVOUTH
Rx1=6.8MΩ, Rx2=2.7MΩ, Rx1=9.1MΩ
2.0
−
5.5
V
−
3.29
−
Output voltage 2
VVOUTL
Rx1=6.8MΩ, Rx2=2.7MΩ, Rx1=9.1MΩ
V
−
2.53
−
V
OVP detection voltage
VOVPH
OVP release voltage
VOVPL
5.2
5.4
5.5
V
5.1
5.3
5.4
V
−
0.1
−
V
6
−
−
mA
VBAT2,3 pin (S6AE102A, S6AE103A)
OVP detection hysteresis
OVP protection current
VDD pin(*2)
VOVPHYS
IOVP
VDD pin(*2) input current
*1: It is recommended to connect more than six cells in series when solar cells are used.
*2: IC (U1,U2,U3) pin
*3: Min. value of power supply voltage depends the output voltage setting.
Please refer the S6AE101A datasheet (002-08493) for more information.
Please refer the S6AE102A and S6AE103A datasheet (002-08501) for more information.
Board size: 19 mm × 11 mm for S6AE101A, 20.5 mm × 16 mm for S6AE102A, 23 mm × 16 mm for S6AE103A.
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
7
3.
Pin and Function Descriptions
3.1. Input/Output Pin Descriptions
Table 3-1 Input/Output Pin Descriptions
Pin Symbol
I/O
Function Descriptions
VBAT1
I
Primary battery input pin (when being not used, leave this pin open)
GND
-
Ground pin
GND
-
Ground pin
VDD1
I
Solar cell input pin (when being not used, leave this pin open)
VSTORE1_1
-
Storage output pin
GND
-
Ground pin
GND
-
Ground pin
VOUT1_1
O
Output voltage pin
Figure 3-1 Pin Layout
VBAT1
VSTORE1_1
GND
GND
GND
GND
VDD1
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
VOUT1_1
8
3. Pin and Function Descriptions
Table 3-2 Input/Output Pin Descriptions
Pin Symbol
I/O
VBAT2
I
Primary battery input pin (when being not used, leave this pin open)
Function Descriptions
GND
-
Ground pin
GND
-
Ground pin
VDD2
I
Solar cell input pin (when being not used, leave this pin open)
VSTORE1_2
-
Storage output pin
GND
-
Ground pin
VSTORE2_2
-
Storage output pin
GND
-
Ground pin
GND
-
Ground pin
VOUT1_2
O
Output voltage pin
VOUT2_2
O
Output voltage pin
VOUT_LDO2
O
LDO output pin
VIN_LDO2
I
LDO input pin
INT2
I
Control signal input for power gating mode
Figure 3-2 Pin Layout
VOUT_LDO2
VDD2
GND
VIN_LDO2
GND
GND
VBAT2
VOUT2_2
INT2
VOUT1_2
GND
VSTORE1_2
VSTORE2_2
GND
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9
3. Pin and Function Descriptions
Table 3-3 Input/Output Pin Descriptions
Pin Symbol
I/O
Function Descriptions
VBAT3
I
Primary battery input pin (when being not used, leave this pin open)
GND
-
Ground pin
GND
-
Ground pin
VDD3
I
Solar cell input pin (when being not used, leave this pin open)
VSTORE1_3
-
Storage output pin
GND
-
Ground pin
VSTORE2_3
-
Storage output pin
GND
-
Ground pin
GND
-
Ground pin
VOUT1_3
O
Output voltage pin
VOUT2_3
O
Output voltage pin
VOUT_LDO3
O
LDO output pin
VIN_LDO3
I
LDO input pin
INT3
I
Control signal input for power gating mode
COMPM3
I
Comparator input pin
COMPP3
I
Comparator input pin
Figure 3-3 Pin Layout
VDD3
VOUT_LDO3
GND
VIN_LDO3
GND
GND
VBAT3
VOUT2_3
VOUT1_3
COMPM3
INT3
GND
COMPP3
VSTORE1_3
VSTORE2_3
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
GND
10
3. Pin and Function Descriptions
3.2. Jumper/Switch Setting
Table 3-4 Jumper Description for S6AE102A
Jumper/Switch
Function
Initial Setting
J21
Shorted between VIN_LDO2 pin and VOUT2_2 pin
Short
J22
Shorted between INT2 pin and VINT2 pin
Short
J23
Shorted between CIN2 pin and GND
Short
SW21
Shorted ENA_LDO2 pin to VINT2 pin or GND
Short ENA_LDO2-VINT2(H)
SW22
Shorted STBY_LDO2 pin to VINT2 or GND
Short STBY_LDO2-GND(L)
Figure 3-4 Jumper/Switch Layout
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
11
3. Pin and Function Descriptions
Table 3-5 Jumper Description for S6AE103A
Jumper/Switch
Function
J31
Shorted between VIN_LDO3 pin and VOUT2_3 pin
J32
Shorted between INT3 pin and VINT3 pin
Initial Setting
Short
Short
SW31
Shorted ENA_LDO3 pin to VINT3 pin or GND
Short ENA_LDO3-VINT3(H)
SW32
Shorted STBY_LDO3 pin to VINT3 or GND
Short STBY_LDO3-GND(L)
SW33
Shorted ENA_COMP3 pin to VINT3 pin or GND
SW34
Shorted COMPM3 pin or COMPP3 pin to VINT3 pin
Short
ENA_COMP3-GND(L)
Short COMPM3-VINT3(H)
Short COMPP3-VINT3(H)
Figure 3-5 Jumper/Switch Layout
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3. Pin and Function Descriptions
3.3. Output Voltage Setting
Output voltage of S6AE100A PMIC is set by changing resistor values of Rx1, Rx2, and Rx3 on the board.
Rx1, Rx2, Rx3 = (R11, R12, R13/ R21, R22, R23/ R31, R32, R33)
Initial setting value of output voltage of the board is
VVOUTH3.29V、VVOUTL2.53V
To change output voltage, derive Rx1, Rx2, and Rx3 values by using following calculation formulas. Then the sum of Rx1,
Rx2, and Rx3 must be set to more than 10 MΩ.
 VVOUTH
VVOUTH =
57.5×(Rx2+Rx3)
[V]
11.1×(Rx1+Rx2+Rx3)
 VVOUTL
VVOUTL =
57.5×Rx3
[V]
11.1×(Rx1+Rx2+Rx3)
Calculation Example:
 VVOUTH
VVOUTH =
57.5×(R12+R13)
57.5×(2.7M+9.1M)
=
= 3.29[V]
11.1×(R11+R12+R13) 11.1×(6.8M+2.7M+9.1M)
 VVOUTL
VVOUTL =
57.5×R13
57.5×9.1M
=
= 2.53[V]
11.1×(R11+R12+R13)
11.1×(6.8M+2.7M+9.1M)
LDO output voltage of S6AE102A and S6AE103A PMIC is set by changing resistor values of Rx4 and Rx5.
Rx4, Rx5 = (R24, R25 / R34, R35)
Initial setting value of output voltage of the board is
VOUT_LDOx2.55V
To change output voltage, derive Rx4 and Rx5 values by using following calculation formulas
 VOUT_LDOx
VOUT_LDOx =
1.15×(Rx4+Rx5)
[V]
Rx5
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4.
Setup and Verification
4.1. Contents in a Package
Contents
Description
S6SAE100A00VA1001
Evaluation board of S6AE101A, S6AE102A and S6AE103A
Quantity
Notes
1
-
It is recommended to prepare the solar cell (e.g. Panasonic AM-1801 ) and coin battery (or stabilized power supply is
available ) by user as input power source for evaluation.
4.2. Operation
4.2.1. Connection of Indoor Type Solar Cell
1. To output 3.3V (initial setting value) to VOUT1_1 pin, input a DC voltage more than 3.4V into VDD1 pin. (It is
recommended to connect more than six cells in series if you use solar cells.)
2. Then, confirm that 3.3V is output to VOUT1 _1 pin. When you measure voltage change during charging, monitor the
voltage on VSTORE1_1 pin.
3. To change the output voltage setting, change the resistor value of R11, R12 and R13 with referring section 3.3 Output
Voltage Setting.
Figure 4-1 Connection of Indoor Type Solar Cell (S6AE101A)
+
Multimeter
VSTORE1_1
-
Solar Cell
+
VDD1
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
+
Multimeter
VOUT1_1
14
4. Setup and Verification
1. To output 3.3V (initial setting value) to VOUT1_2 pin, input a DC voltage more than 3.4V into VDD2 pin. (It is
recommended to connect more than six cells in series if you use solar cells.)
2. Then, confirm that 3.3V is output to VOUT1_2 pin and VOUT2_2 pin. When you measure voltage change during charging,
monitor the voltage on VSTORE1_2 pin.
3. Also, confirm that 2.5V is output to VOUT_LDO2 pin.
4. To change the output voltage setting of VOUT, change the resistor value of R21, R22 and R23 with referring section 3.3
Output Voltage Setting.
5. To change the output voltage setting of LDO, change the resistor value of R24 and R25 with referring section 3.3 Output
Voltage Setting.
Figure 4-2 Connection of Indoor Type Solar Cell (S6AE102A)
Solar Cell
+
VDD2
+
Multimeter
VOUT_LDO2
-
-
+
+
+
Multimeter
VOUT2_2
Multimeter
VOUT1_2
Multimeter
VSTORE1_2
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15
4. Setup and Verification
1. To output 3.3V (initial setting value) to VOUT1_3 pin, input a DC voltage more than 3.4V into VDD3 pin. (It is
recommended to connect more than six cells in series if you use solar cells.)
2. Then, confirm that pulsed 3.3V is output to VOUT1_3 pin and VOUT2_3 pin by timer control. Please refer the datasheet
"Timer Driven Mode in 12.2 Power Gating" for more detailed information about the operation. When you measure voltage
change during charging, monitor the voltage on VSTORE1_3 pin.
3. Also, confirm that pulsed 2.5V is output to VOUT_LDO3 pin. LDO output is synchronized with the VOUT2_3, because the
LDO is supplied from VOUT2_3 as input power source at the initial setting.
4. To change the output voltage setting of VOUT, change the resistor value of R31, R32 and R33 with referring section 3.3
Output Voltage Setting.
5. To change the output voltage setting of LDO, change the resistor value of R34 and R35 with referring section 3.3 Output
Voltage Setting.
Figure 4-3 Connection of Indoor Type Solar Cell (S6AE103A)
Solar Cell
VDD3
+
+
Multimeter
VOUT_LDO3
-
-
Multimeter
VOUT2_3
+
-
Multimeter
VOUT1_3
+
+
Multimeter
VSTORE1_3
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4. Setup and Verification
4.2.2. Hybrid Connection of Indoor Type Solar Cell and Primary Battery
1. To output 3.3V (initial setting value) to VOUT1_1 pin, input a DC voltage more than 3.4V into VDD1 pin and VBAT1 pin.
VDD1 pin is for solar cell and VBAT1 is for 3V coin battery etc.
2. Confirm that 3.3V is output to VOUT1_1 pin. When you measure voltage change during charging, monitor the voltage on
VSTORE1_1 pin.
3. Connect the load to VOUT1_1 pin in order to make VDD1 pin voltage dropping under 1.45V. After the VDD1 pin voltage
becomes under 1.45V, VBAT1 pin voltage is directly supplied to VOUT1_1 pin.
4. To change the output voltage setting, change the resistor value of R11, R12 and R13 with referring section 3.3 Output
Voltage Setting.
Figure 4-4 Hybrid Connection of Indoor Type Solar Cell and Primary Battery with Board (S6AE101A)
VBAT1
+
+
-
Solar Cell
Multimeter
VSTORE1_1
-
-
+
+
Multimeter/
Electric load
VOUT1_1
VDD1
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4. Setup and Verification
1. To output 3.3V (initial setting value) to VOUT1 _2 pin and VOUT2_2 pin, input a DC voltage more than 3.4V into VDD2
pin (e.g. solar battery). And input the over 2V into VBAT2 pin (e.g. 3V coin battery). When the VSTORE1_2 pin voltage
drops, VBAT2 pin voltage is directly supplied to VOUT1_2 pin and VOUT2_2 pin.
2. Confirm that 3.3V is output to VOUT1_2 pin and VOUT2_2 pin. When you measure voltage change during charging,
monitor the voltage on VSTORE1_2 pin.
3. Confirm that 2.5V is output to VOUT_LDO2 pin.
4. Connect the load to VOUT1_2 pin in order to make VSTORE1_2 pin voltage dropping under 2.5V. VBAT2 pin voltage is
directly supplied to VOUT1_2 pin and VOUT2_2 pin.
5. To change the output voltage setting, change the resistor value of R21, R22 and R23 with referring section 3.3 Output
Voltage Setting.
6. To change the output voltage setting of LDO, change the resistor value of R24 and R25 with referring section 3.3 Output
Voltage Setting.
Figure 4-5 Hybrid Connection of Indoor Type Solar Cell and Primary Battery with Board (S6AE102A)
Solar Cell
+ VDD2
+
-
Multimeter
VOUT_LDO2
-
+
+ VBAT2
+
+
Multimeter
VOUT2_2
Multimeter/
Electric load
VOUT1_2
Multimeter
VSTORE1_2
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18
4. Setup and Verification
1. To output 3.3V (initial setting value) to VOUT1 _3 pin and VOUT2_3 pin, input a DC voltage more than 3.4V into VDD3
pin (e.g. solar battery). And input the over 2V into VBAT3 pin (e.g. 3V coin battery). When the VSTORE1_3 pin voltage
drops, VBAT3 pin voltage is directly supplied to VOUT1_3 pin and VOUT2_3 pin.
2. Confirm that pulsed 3.3V is output to VOUT1_3 pin and VOUT2_3 pin by timer control. Please refer the datasheet "Timer
Driven Mode in 12.2 Power Gating" for more detailed information about the operation. When you measure voltage
change during charging, monitor the voltage on VSTORE1_3 pin.
3. Also confirm that pulsed 2.5V is output to VOUT_LDO3 pin. LDO output is synchronized with the VOUT2_3, because the
LDO is supplied from VOUT2_3 as input power source at the initial setting.
4. Connect the load to VOUT1_3 pin or VOUT2_3 pin in order to make VSTORE1_3 pin voltage dropping under 2.5V.
VBAT3 pin voltage is directly supplied to VOUT1_3 pin and VOUT2_3 pin.
5. To change the output voltage setting, change the resistor value of R31, R32 and R33 with referring section 3.3 Output
Voltage Setting.
6. To change the output voltage setting of LDO, change the resistor value of R34 and R35 with referring section 3.3 Output
Voltage Setting.
Figure 4-6 Hybrid Connection of Indoor Type Solar Cell and Primary Battery with Board (S6AE103A)
Solar Cell
+
VDD3
+
-
Multimeter
VOUT_LDO3
-
+
Multimeter
VOUT2_3
+
VBAT3
+
+
Multimeter/
Electric load
VOUT1_3
Multimeter
VSTORE1_3
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19
5.
Circuit Schematic
Figure 5-1 Circuit Schematic
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
20
5. Circuit Schematic
S6SAE100A00VA1001 Evaluation Board Operation Guide, Doc No. 002-08728 Rev.*A
21
6.
Component List
Table 6-1 Component List
No
Reference
Parts Number
Description
Manufacture
Note
1
C11, C21, C31
C1608X6S1A106M080AC
10 μF/10V/1608
TDK Corporation
-
C1005X7S1A105K050BC
1 μF/10V/1005
TDK Corporation
-
2
C12, C22, C32,
C28, C38
3
C13, C23, C33
C3216X5R0J107M160AB
100 μF/6.3V/3216
TDK Corporation
-
4
C24, C34
C2012X5R1V226M125AC
22 μF/10V/2012
TDK Corporation
-
5
C25, C35
C1608C0G1H151J080AA
150 pF/50V/1608
TDK Corporation
-
6
C36, C37
C1608C0G1H331J080AA
330 pF/50V/1608
TDK Corporation
-
7
C29, C39
C1608C0G1H221J080AA
220 pF/50V/1608
TDK Corporation
-
-
100 μF/6.3V/3216
-
non mount
1SS417
Diode 40V/1006
TOSHIBA Corporation
-
8
9
C71, C72, C81, C82,
C91, C92
D11, D21, D31
Cypress Semiconductor
10
U1
S6AE101A
Energy Harvesting PMIC
11
U2
S6AE102A
Energy Harvesting PMIC
12
U3
S6AE103A
Energy Harvesting PMIC
13
R11, R21, R31
ESR03EZPF6804
6.8 M/1608/1%
Rohm Semiconductor
-
14
R12, R22, R32
ESR03EZPF2704
2.7 M/1608/1%
Rohm Semiconductor
-
15
R13, R23, R33
ESR03EZPF9104
9.1 M/1608/1%
Rohm Semiconductor
-
16
R24, R34
ESR03EZPF1005
10 M/1608/1%
Rohm Semiconductor
-
17
R25, R35
ESR03EZPF8204
8.2 M/1608/1%
Rohm Semiconductor
-
18
R81, R91
-
1608
-
Pattern short
2.54 mm 4pin
-
-
non mount
2.54 mm 3pin
-
-
non mount
2.54 mm 2pin
-
-
non mount
2.54 mm 1pin
-
-
non mount
19
20
CN11, CN21, CN22,
CN31, CN32
CN36
Corporation
Cypress Semiconductor
Corporation
Cypress Semiconductor
Corporation
-
CN12, CN13, CN23,
21
CN24, CN25, CN33,
CN34, CN35
22
CN26
These components are compliant with RoHS, but ask each vender for details if necessary.
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7.
Components Layout
Figure 7-1 Top, Bottom
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8.
Silk and Layout
Figure 8-1 Layer1
Figure 8-2 Layer2
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8. Silk and Layout
Figure 8-3 Layer3
Figure 8-4 Layer4
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9.
Board Splitting
The PCB can be cut along the V-cut line. The torsional stress on the board is reduced, when a force is applied to the entire
V-cut line.
Figure 9-1 Board
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10. Ordering Information
Table 10-1 Ordering Information
Part Number
EVB Revision
Note
S6SAE100A00VA1001
Rev. 1.0
-
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11. Major Changes
Spansion Publication Number: S6SAE100A00VA1001_SS901-00040
Table 11-1 Major Changes
Page
Section
Change Results
Revision 1.0
-
-
Initial release
NOTE: Please see “Revision History” about later revised information.
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Revision History
Document Revision History
Document Title:
S6SAE100A00VA1001 Energy Harvesting PMIC S6AE10xA Evaluation Board Operation Guide
Document Number:
002-08728
Revision
ECN No.
Origin of
Description of Change
Change
**
*A
5131017
TAOA
New Specification
ATTS
Table2-1 Description of output voltage is changed
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