KTTWRSB0410-36EVBUG, TWR-SB0410-36EVB Tower System Platform - User s Guide

NXP Semiconductors
User’s Guide
Document Number: KTTWRSB0410-36EVBUG
Rev. 1.0, 1/2016
TWR-SB0410-36EVB Tower System Platform
Figure 1. TWR-SB0410-36EVB
© NXP Semiconductors N.V. 2016. All rights reserved.
Contents
1
2
3
4
5
6
7
8
9
10
Important Notice . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
Getting Started . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
Understanding the Tower System Modular Development Board Platform . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
Getting to Know the Hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
Setting Up the Hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16
Board Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19
Board Bill of Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20
References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22
Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
2
NXP Semiconductors
Important Notice
1
Important Notice
Freescale provides the enclosed product(s) under the following conditions:
This evaluation kit is intended for use of ENGINEERING DEVELOPMENT OR EVALUATION PURPOSES ONLY.
It is provided as a sample IC pre-soldered to a printed circuit board to make it easier to access inputs, outputs, and
supply terminals. This evaluation board may be used with any development system or other source of I/O signals
by simply connecting it to the host MCU or computer board via off-the-shelf cables. This evaluation board is not a
Reference Design and is not intended to represent a final design recommendation for any particular application.
Final device in an application will be heavily dependent on proper printed circuit board layout and heat sinking
design as well as attention to supply filtering, transient suppression, and I/O signal quality.
The goods provided may not be complete in terms of required design, marketing, and or manufacturing related
protective considerations, including product safety measures typically found in the end product incorporating the
goods. Due to the open construction of the product, it is the user's responsibility to take any and all appropriate
precautions with regard to electrostatic discharge. In order to minimize risks associated with the customers
applications, adequate design and operating safeguards must be provided by the customer to minimize inherent or
procedural hazards. For any safety concerns, contact Freescale sales and technical support services.
Should this evaluation kit not meet the specifications indicated in the kit, it may be returned within 30 days from the
date of delivery and will be replaced by a new kit.
Freescale reserves the right to make changes without further notice to any products herein. Freescale makes no
warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does
Freescale assume any liability arising out of the application or use of any product or circuit, and specifically
disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters
can and do vary in different applications and actual performance may vary over time. All operating parameters,
including “Typical”, must be validated for each customer application by customer’s technical experts.
Freescale does not convey any license under its patent rights nor the rights of others. Freescale products are not
designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or
other applications intended to support or sustain life, or for any other application in which the failure of the Freescale
product could create a situation where personal injury or death may occur.
Should the Buyer purchase or use Freescale products for any such unintended or unauthorized application, the
Buyer shall indemnify and hold Freescale and its officers, employees, subsidiaries, affiliates, and distributors
harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or
indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such
claim alleges Freescale was negligent regarding the design or manufacture of the part. Freescale™ and the
Freescale logo are trademarks of Freescale Semiconductor, Inc. All other product or service names are the property
of their respective owners. © Freescale Semiconductor, Inc. 2016
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
3
Getting Started
2
Getting Started
2.1
Kit Contents/Packing List
The TWR-SB0410-36EVB contents include:
• TWR-SB0410-36EVB tower board
• Plug-in connectors
• Warranty card
2.2
Jump Start
Freescale’s analog product development boards help to easily evaluate Freescale products. These tools support analog mixed signal and
power solutions including monolithic ICs using proven high-volume SMARTMOS mixed signal technology, and system-in-package devices
utilizing power, SMARTMOS and MCU dies. Freescale products enable longer battery life, smaller form factor, component count
reduction, ease of design, lower system cost, and improved performance in powering state of the art systems.
• Go to www.nxp.com/TWR-SB0410-36EVB
• Review your Tool Summary Page
• Look for
Jump Start Your Design
• Download documents, software, and other information
Once the files are downloaded, review the user guide in the bundle. The user guide includes setup instructions, BOM, and schematics.
Jump start bundles are available on each tool summary page with the most relevant and current information. The information includes
everything needed for design.
2.3
Required Equipment and Software
To use this kit, you need:
• Power supply 6.0 V to 36 V with current limit set initially to 2.25 A to 9.0 A
• Oscilloscope (preferably 4-channel) with current probe(s) (optional)
• Digital Multimeter
• Typical loads (DC motor, valve)
• TWR-KL25Z48M or K20D72M or KV31F120M or other Tower boards (check compatibility)
• Kinetis Design Studio or compatible CodeWarrior for MCUs (Eclipse IDE). For information on getting started with
CodeWarrior, see the MC34ValveController Processor Expert Component User Guide.
2.4
System Requirements
The kit requires the following to function properly with the software:
• USB-enabled PC with Windows® XP or higher
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
4
NXP Semiconductors
Understanding the Tower System Modular Development Board Platform
3
Understanding the Tower System Modular Development
Board Platform
Freescale’s Tower System peripheral module is designed to be combined and used with other Tower System modules. The Tower System
is a modular development platform for 8-, 16-, and 32-bit MCUs and MPUs enabling advanced development through rapid prototyping.
Featuring more than fifty development boards or modules, the Tower System provides designers with building blocks for entry-level to
advanced MCU development. Figure 2 shows a Tower System platform with the TWR-SB0410-36EVB configured with another Tower
System module, the TWR-KL25Z48M board.
TWR-SB0800-36EVB or TWR-SB0410-36EVB
Elevator Board
(Primary)
Elevator Board
(Secondary)
Tower MCU Board (TWR-KL25Z48M in this example)
Figure 2. TWR-SB0410-36EVB on Tower System
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
5
Understanding the Tower System Modular Development Board Platform
3.1
Block Diagram
Power Supply
6.0 V to 36 V
Digital Supply
5.0 V
Primary Elevator
MCU Tower
Board Selection
(Jumpers))
Warning Lamp
Valves
x4
MC34SB0410
Quad Valves
Controller
x2
Motor
Secondary Elevator
SPI (single,
daisy chain)
GPIO &
ADC input
(x3)
Tower System Interface
0
EXTERNAL USE
Figure 3. Block Diagram
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
6
NXP Semiconductors
Getting to Know the Hardware
4
Getting to Know the Hardware
4.1
Board Overview
The TWR-SB0410-36EVB is a tower peripheral module that exercises valve control functions on SoC products based on the Tower
System. The Tower System acts as a debug and communication port for the PC being used to debug/download programs from the Kinetis
Design Studio/CodeWarrior system.
4.2
Board Features
The board features are as follows:
• Valves controller with safety features embedded: MC34SB0410
• Four current regulated valve drivers (or PWM) up to 5.0 A
• One high-side pre-driver motor control (up to 16 kHz)
• Embedded safety supervision
• Simple connections with MCU
• Communication via SPI daisy chainable with other TWR-SB0800-36EVB or TWR-SB0410-36EVB (daisy chain mode jumper selectable)
• Single SPI communication supported
• LED on board indicate ON/OFF status of both low-side (general purpose) channel
• Three ADC (10-bit) inputs
4.3
Device Features
This tower system features the following NXP product:
Table 1. Device Features
Device
Description
Features
Control Features
• Operating voltage up to 36 V
• Four low-side drivers regulate up to 2.25 A
• ± 2.0% precision reachable with calibration or four low-side drivers PWM up to 5 kHz with
a maximum current capability up to 5.0 A
• All low-side drivers are integrated to save PCB space
• One high-side pre-driver for DC Motor Control (up to 16 kHz)
MC34SB0410
Quad Valve Controller System on Chip
• ADC can monitor external or internal signals to enhance the control unit safety level
• Only one SPI is needed to control the device
• Only one SPI access to write the current or a PWM command is needed
• MCU does not need to generate PWM signals at high frequency
Safety Features
• Undervoltage, overvoltage clock fail detection
• Open load, short circuit, overtemperature detection on each low-side
• VDS monitoring of each low-side driver in real time
• Overcurrent
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
7
Getting to Know the Hardware
4.4
Board Description
Elevator Board (Primary)
Jumper Selection for Daisy Chain /Input PWM
Motor Control Selection)
Reset Switch
x3 10-bit ADC Inputs
x4 Regulated / PWM
Valve Driver Outputs
5.0 V VCC5 Supply
Low-side Driver Output
(general purpose)
Low-side Driver Output
(general purpose)
MC34SB0410
Valves Power
AGND
6.0 V to 36 V
VPWR Supply
DC Motor Output
Motor Jumper
Elevator Board (Secondary)
Figure 4. Board Overview
Table 2. Board Description
Name
Description
Reset button
Resets the MC34SB0410 device
Four Regulated / PWM Valve Driver Outputs
Current Regulated (or PWM) valves output up to 2.25 A, 5 KHz (or 5.0 A, up to 5 KHz)
Valves Power
Provides supply to all valves connected
AGND
Ground connector header
6.0 V to 36 V VPWR Supply
Power supply for power stage
Motor Jumper
Connect / disconnect the motor jumper for test
Secondary Connector
Plug into secondary elevator board
DC motor output
DC motor output up to 500 Hz
Low-side Driver Output (general purpose)
General low-side driver output with LED display
Low-side Driver Output (general purpose)
General low-side driver output with LED display
5.0 V VCC5 Supply
External 5.0 V supply input for Digital (not mandatory if J5, J6 are selecting the 5.0 V tower supply)
Three 10-bit ADC inputs
10-bit ADC input for external monitoring (general / safety purpose)
Select the 5.0 V - 3.3 V Tower supply or
5.0 V external supply
Select the 5.0 V - 3.3 V Tower supply or 5.0 V external supply
Jumpers Selection for Daisy Chain / input PWM
motor control
Jumpers selection for Daisy Chain / input PWM motor control
Primary Connector
Plug into primary elevator board
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
8
NXP Semiconductors
Getting to Know the Hardware
4.4.1 LED Display
The following LEDs are provided as visual output devices for the TWR-SB0410-36EVB:
D5
D16
D14
D15
D12
Figure 5. LED Locations
Table 3. LEDs
LED ID
Description
D5
Indicates when MC34SB0410 is in Reset or Safe / Normal Mode
(Reset = Blinking, ON = Safe or Normal Mode)
D12
Indicates when VPWR power supply is ON
D14
Indicates when low-side driver 2 (general purpose) is ON state
D15
Indicates when low-side driver 1 (general purpose) is ON state
D16
Indicates when digital supply is ON
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
9
Getting to Know the Hardware
4.4.2 Test Point Definitions
The following test points are provided for signal analysis of the MC34SB0410 device.
TP10
TP14
TP8
TP5
TP11
TP4
TP3
TP2
TP6
TP1
TP9
TP13
TP12
TP15 TP7
Figure 6. Test Point Locations
Table 4. Test Points
Schematic Label
Description
TP1
Indicates DOSV signal (digital output signal)
TP2
Indicates ADIN1 signal (10-bit ADC)
TP3
Indicates ADIN2 signal (10-bit ADC)
TP4
Indicates ADIN3 signal (10-bit ADC)
TP5
Indicates MISO signal
TP6
Indicates PDI input for DC motor gate driver signal
TP7 & TP15
Power jumper connections that can be used for Motor signal analysis
TP8
Indicates MOSI signal
TP9
Indicates SPI / Chip Select signal
TP10
Indicates SPI clock signal
TP11
Indicates Reset signal
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
10
NXP Semiconductors
Getting to Know the Hardware
Table 4. Test Points (continued)
Schematic Label
Description
TP12
Indicates VPWR signal
TP13 & TP14
Indicates AGND signal
4.4.3 Connectors
Input/output connectors provide the following signals:
ADIN3
ADIN2
LSD1
ADIN1
LSD2
CON_VCC5
LSD3
LSD4
LD2
LD1
LSD_PWR
AGND
MOTOR+
VPWR
MOTORVPWR_
MOTOR
Figure 7. Connector Locations
Table 5. Connectors
Name
Description
LSD1
Regulated / PWM valve drivers output 1 of MC34SB0410
LSD2
Regulated / PWM valve drivers output 2 of MC34SB0410
LSD3
Regulated / PWM valve drivers output 3 of MC34SB0410
LSD4
Regulated / PWM valve drivers output 4 of MC34SB0410
LSD_PWR
Valves supply output of MC34SB0410
AGND
Ground input of MC34SB0410
VPWR
Power supply input of MC34SB0410
VPWR_MOTOR
DC motor power supply input of MC34SB0410
Motor -
DC motor negative output of MC34SB0410
Motor +
DC motor positive output of MC34SB0410
LD1
Low-side driver 2 (general purpose) output of MC34SB0410
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
11
Getting to Know the Hardware
Table 5. Connectors (continued)
Name
LD2
CON_VCC5
Description
Low-side driver 1 (general purpose) output of MC34SB0410
5.0 V external digital input of MC34SB0410
ADIN1
10-bit ADC input 3 of MC34SB0410
ADIN2
10-bit ADC input 2 of MC34SB0410
ADIN3
10-bit ADC input 1 of MC34SB0410
4.4.4 Jumper Definitions
Figure 8 and Table 6 define the jumper positions and explains their functions. The default settings are shown in bold.
J13
J6
J5
J7
J9
Figure 8. Jumper Locations
.
Table 6. Jumpers
Jumper
Description
J5
Selects the Tower 5.0 V supply or the 5.0 V external supply
J6
Selects the digital voltage level 5.0 V or 3.3 V
J7
Connect / disconnect the LED as a load for the low-side
driver 2 (general purpose)
Setting
Connection
1-2
External 5.0 V Supply
2-3
Tower 5.0 V Supply
1-2
5.0 V Digital Voltage Level
2-3
3.3 V Digital Voltage Level
1-2
LED connected
Not connected
LED disconnected
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
12
NXP Semiconductors
Getting to Know the Hardware
Table 6. Jumpers (continued)
Jumper
Description
J9
Connect / disconnect the LED as a load for the low-side
driver 1 (general purpose)
J13
Selects compatibility settings when using additional tower
boards
Setting
Connection
1-2
LED connected
Not connected
LED disconnected
Multiple
See Section 5.2 "Tower Board Settings"
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
13
Setting Up the Hardware
5
Setting Up the Hardware
5.1
Configuring the Hardware
Table 7 shows jumper settings for various MCU Tower Boards. Figure 9 shows a typical configuration using the TWR-KL25Z48M and the
jumper settings outlined in red in Table 7.
Table 7. MCU Tower Board TWR-KL25Z48M Jumper Settings
TWR-KL25Z48M TWR-KV31F120M
TWR-KV10Z32
TWR-K64F120M
TWR-K20
TWR-K22F120
TWR-K70
RSTB
GPIO1
GPIO1
GPIO1
GPIO1
GPIO8
GPIO1
GPIO2
CSB
GPIO2
GPIO2
GPIO2
GPIO2
GPIO9
GPIO2
GPIO3
PDI
PWM4
PWM4
PWM4
PWM4
PWM4
PWM0
PWM4
Figure 9. Configuration Example
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
14
NXP Semiconductors
Setting Up the Hardware
5.2
Tower Board Settings
A jumper block (J13) on the TWR-SB0410-36EVB provides a means of configuring the board for use with additional MCUs. The J13
jumper settings define the routing of all SPI signals, the reset signal from the MCU, and the PWM motor control signal. In addition, jumper
J6 allows you to select between either 3.3 V or 5.0 V depending on the requirement of the MCU being used.
Make sure that you set jumper J6 to the proper voltage level and set the jumpers on J13 to feasible positions. Check the schematic of
each tower elevator board to assure that all signals are correctly connected.
Figure 10 shows the selection options on the TWR-SB0410-36EVB.
J13
GPIO1
SB0410_RESET
GPIO2
GPIO8
GPIO9
SB0410_CSB
GPIO8
GPIO2
1
3
5
7
9
11
13
15
17
19
2
4
6
8
10
12
14
16
18
20
PWM0
PWM4
PWM1
SB0410_PDI
PWM5
GPIO8
GPIO3
HDR_2X10
Figure 10. Jumpers for IO Selection
Blue text indicates signals coming from the MC34SB0410 of the TWR-SB0410-36EVB.
Red text indicates signals coming from the tower elevator board (Primary and Secondary).
Table 8 shows feasible J13 jumper settings for compatible tower boards. These settings are important because the Reset (RSTB) and
Chip Select (CSB) signals must be routed to MCU IO header positions that can handle such signals.
Table 8. Jumper Settings for Compatible Tower Boards
TWR-KL25Z48M TWR-KV31F120M
TWR-KV10Z32
TWR-K64F120M
TWR-K20
TWR-K22F120
TWR-K70
RSTB
GPIO1
GPIO1
GPIO1
GPIO1
GPIO8
GPIO1
GPIO2
CSB
GPIO2
GPIO2
GPIO2
GPIO2
GPIO9
GPIO2
GPIO3
PDI
PWM4
PWM4
PWM4
PWM4
PWM4
PWM0
PWM4
5.3
Step-by-step Instructions for Setting Up the Hardware
To perform the demonstration examples, the following connections and setup must be performed:
1. Mount the TWR-SB0410-36EVB and TWR-KL25Z48M (for example) board firmly to the tower elevator connectors.
2. Connect the positive "VPWR" wire (from power supply) to the positive "VPWR" connector of TWR-SB0410-36EVB and the
negative "AGND" wire to the negative "AGND" wire.
3. Check if all jumpers are in the defaults position of TWR-SB0410-36EVB and the TWR-KL25Z48M board (refer to the tower MCU
board User Guide) to a power supply.
4. Attach a USB mini-cable between the PC and the USB mini-plug connector on the TWR-KL25Z48M board. This cable serves as
the VCC5 supply and the communication link between the tower boards platform and the PC.
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
15
SB0410_PDI
DNP
D4
R5
1.8K
AGND
C
R3 100
A
SB0410_LSD_4
SB0410_LSD_3
SB0410_LSD_2
SB0410_LSD_1
SB0410_PD_S
SB0410_PD_G
ORANGE
TP6
D1
10BQ015
SB0410_PD_D
A
C
U1
LSD4_1
LSD4_2
LSD3_1
LSD3_2
LSD2_1
LSD2_2
LSD1_1
LSD1_2
PDI
PD_D
PD_G
PD_S
DNP
TP1
AGND
AGND
NC_1
NC_2
NC_3
NC_4
NC_5
NC_6
RST
LD1
LD2
SO
SI
CS
SCLK
ADIN1
ADIN2
ADIN3
about wires size on Layout.
DNP
TP2
AGND
DNP
R6
10K
TP11
VCC5
46
SB0410_LD1
SB0410_LD2
MISO0
MOSI0
SB0410_CSB
SCLK0
AGND
4
1
SB0410_RESET
DOSV
AGND
VCC5
VPWR
C6
1000PF
SW1
3 PB switch
2
SB0410_RESET
D5
GREEN
R7
1K
SB0410_RESET
DOSV
AGND
VCC5
VPWR
In/Out Signal
SB0410_ADIN1
SB0410_ADIN2
SB0410_ADIN3
23
24
25
34
35
36
15
16
TP3
DNP TP4
DNP
TP5
DNP TP8
TP9
37 DNP
27
DNP TP10
28
DNP
26
39
40
41
MC34SB0410AE
AGND
DOSV
VPWR
C5
1uF
C2
0.22UF AGND
LSDx drain 5A maximum, be carefull
Note :
12
13
8
9
4
5
1
48
29
19
21
22
VCC5
R1 0
C4
0.33UF
42
VCC5
20
VBOOT
44
VINT_A
33
DOSV
17
VPWR
31
VINT_D
GND_P0
GND_P1
GND_P2
GND_P3
GND_P4
GND_P5
GND_P6
GND_P7
GND_P8
GND_P9
GND_P10
GND_P11
GND_P12
47
2
3
6
7
10
11
14
18
30
38
45
49
GND_A
GND_D
43
32
A
C
SB0410_PD_G
SB0410_PD_S
R4 100
SB0410_PD_D
4
A
C
R8
2K
GDZ15B-E3-08
D3
D2
GDZ15B-E3-08
TP7
2K
R2
DNP
VPWR_Motor
C
0.1UF
A
AGND
D6
SS2H10
RJK0301DPB
Q1
STPS2H100AY
D18
D17
STPS2H100AY
C3
Motor Function - 40A -
C
A
A
C
5
1
2
3
16
C
AGND
J1
B
A
CON_2_TB
Motor Pump -
2
1
Motor Pump +
6
A
C1
0.22UF
Schematics
Schematics
Figure 11. Schematic Part 1
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
4
3
2
1
CON_VCC5
SB0410_ADIN3
SB0410_ADIN2
SB0410_ADIN1
J8
A
B
1
2
CON_2_TB
1
2
SB0410_LD2
HDR 1X2 TH
J7
ORANGE
D14
R10
1.8K
VPWR
1
2
SB0410_LD1
HDR 1X2 TH
J9
ORANGE
D15
R11
1.8K
Low Side Driver Connectors
CON_4_TB
J3
A
C
A
C
3
2
1
Pin
1 & 2
2 & 3
DOSV
5V
3.3V
TWR_VCC3V3
C
AGND
ELE_PS_SENSE_1
R12
0
C12
2200PF
DOSV
C11
2200PF
SS2H10
SB0410_LSD_4
AGND
D13
A
C
C10
2200PF
SS2H10
SB0410_LSD_3
AGND
D11
A
C
Digital Supply
VCC5
CON_4_TB
4
3
2
1
HDR_1X3
J6
J4
SS2H10
D7
C7
2200PF
SS2H10
SB0410_LSD_2
AGND
D10
A
C
A
SB0410_LSD_VPWR
AGND
C13
0.1uF
CON_4_TB
4
3
2
1
CON_VCC5
J2
J5
HDR_1X3
VPWR_Motor
AGND
AGND
D16
BLUE
R13
1K
D8
C
C9
0.1uF
VCC5
TWR_VCC5
Pin
1 & 2
2 & 3
VCC5 - Supply
STPS2H100AY
D9
SUPPLY
STPS2H100AY
A
SB0410_LSD_VPWR
3
SB0410_LSD_1
1
C
A
MC34SB0410 LSD_1 to LSD_4 Regulated
2
A
C
AGND
DNP
D12
GREEN
R9
1.8K
VCC
External VCC5
Tower VCC5
TP13TP14TP15
DNP DNP DNP
AGND
C8
10uF
VPWR TP12
A
NXP Semiconductors
C
VCC5 & ADIN Connector
Schematics
Figure 12. Schematic Part 2
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
17
18
SCLK0
MISO0
MOSI0
ELE_PS_SENSE_1
AGND
TWR_VCC3V3
AGND
AGND
PWM5
PWM4
TWR_VCC3V3
AGND
AGND
GPIO1
GPIO2
GPIO3
AGND
TWR_VCC5
AGND
TWR_VCC3V3
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34
B35
B36
B37
B38
B39
B40
B41
B42
B43
B44
B45
B46
B47
B48
B49
B50
B51
B52
B53
B54
B55
B56
B57
B58
B59
B60
B61
B62
B63
B64
B65
B66
B67
B68
B69
B70
B71
B72
B73
B74
B75
B76
B77
B78
B79
B80
B81
B82
B1
B2
B3
B4
B5
B6
B7
B8
B9
B10
B11
J12A
PCI EXPRESS TOWER SYSTEM
ETH_COL_1
ETH_RXER_1
ETH_TXCLK_1
ETH_TXEN_1
ETH_TXER_1
ETH_TXD3_1
ETH_TXD2_1
ETH_TXD1_1
ETH_TXD0_1
GPIO1/RTS1
GPIO2/SDHC_D1
GPIO3
CLKIN0
CLKOUT1
GND_4
AN7
AN6
AN5
AN4
GND_5
DAC1
TMR3
TMR2
GPIO4
3.3V_2
PWM7
PWM6
PWM5
PWM4
CANRX0
CANTX0
1WIRE
SPI0_MISO/IO1
SPI0_MOSI/IO0
SPI0_CS0
SPI0_CS1
SPI0_CLK
GND_6
SCL1
SDA1
GPIO5/SPI0_HOLD/IO3
USB0_DP_PDOWN
USB0_DM_PDOWN
IRQ_H
IRQ_G
IRQ_F
IRQ_E
IRQ_D
IRQ_C
IRQ_B
IRQ_A
EBI_ALE/EBI_CS1
EBI_CS0
GND_7
EBI_AD15
EBI_AD16
EBI_AD17
EBI_AD18
EBI_AD19
EBI_R/W
EBI_OE
EBI_D7
EBI_D6
EBI_D5
EBI_D4
EBI_D3
EBI_D2
EBI_D1
EBI_D0
GND_8
3.3V_3
5V_1
GND_1
3.3V_1
ELE_PS_SENSE_1
GND_2
GND_3
SDHC_CLK/SPI1_CLK
SDHC_D3/SPI1_CS1
SDHC_D3/SPI1_CS0
SDHC_CMD/SPI1_MOSI
SDHC_D0/SPI1_MISO
PRIMARY
ETH_CRS
ETH_MDC_1
ETH_MDIO_1
ETH_RXCLK_1
ETH_RXDV_1
ETH_RXD3_1
ETH_RXD2_1
ETH_RXD1_1
ETH_RXD0_1
SSI_MCLK
SSI_BCLK
SSI_FS
SSI_RXD
SSI_TXD
GND_12
AN3
AN2
AN1
AN0
GND_13
DAC0
TMR1
TMR0
GPIO6
3.3V_6
PWM3
PWM2
PWM1
PWM0
RXD0
TXD0
RXD1
TXD1
VSSA
VDDA
VREFA1
VREFA2
GND_14
GPIO14
GPIO15
GPIO16
GPIO17
USB0_DM
USB0_DP
USB0_ID
USB0_VBUS
TMR7
TMR6
TMR5
TMR4
RSTIN
RSTOUT
CLKOUT0
GND_15
EBI_AD14
EBI_AD13
EBI_AD12
EBI_AD11
EBI_AD10
EBI_AD9
EBI_AD8
EBI_AD7
EBI_AD6
EBI_AD5
EBI_AD4
EBI_AD3
EBI_AD2
EBI_AD1
EBI_AD0
GND_16
3.3V_7
5V_2
GND_9
3.3V_4
3.3V_5
GND_10
GND_11
SCL0
SDA0
GPIO9/CTS1
GPIO8/SDHC_D2
GPIO7/SD_WP_DET
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
A23
A24
A25
A26
A27
A28
A29
A30
A31
A32
A33
A34
A35
A36
A37
A38
A39
A40
A41
A42
A43
A44
A45
A46
A47
A48
A49
A50
A51
A52
A53
A54
A55
A56
A57
A58
A59
A60
A61
A62
A63
A64
A65
A66
A67
A68
A69
A70
A71
A72
A73
A74
A75
A76
A77
A78
A79
A80
A81
A82
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
AGND
TWR_VCC3V3
AGND
AGND
PWM1
PWM0
TWR_VCC3V3
AGND
AGND
GPIO9
GPIO8
AGND
TWR_VCC5
AGND
TWR_VCC3V3
GPIO2
GPIO8
GPIO9
GPIO2
GPIO8
GPIO1
1
3
5
7
9
11
13
15
17
19
2
4
6
8
10
12
14
16
18
20
HDR_2X10
J13
AGND
TWR_VCC5
TWR_VCC3V3
GPIO3
PWM5
GPIO8
PWM4
PWM1
PWM0
SB0410_PDI
Allows to adress several IO of MCU
Note:
SB0410_CSB
SB0410_RESET
AGND
TWR_VCC5
TWR_VCC3V3
AGND
TWR_VCC3V3
AGND
AGND
TWR_VCC3V3
AGND
AGND
AGND
TWR_VCC5
AGND
TWR_VCC3V3
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
D32
D33
D34
D35
D36
D37
D38
D39
D40
D41
D42
D43
D44
D45
D46
D47
D48
D49
D50
D51
D52
D53
D54
D55
D56
D57
D58
D59
D60
D61
D62
D63
D64
D65
D66
D67
D68
D69
D70
D71
D72
D73
D74
D75
D76
D77
D78
D79
D80
D81
D82
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
J12B
PCI EXPRESS TOWER SYSTEM
ETH_COL_2
ETH_RXER_2
ETH_TXCLK_2
ETH_TXEN_2
GPIO18
GPIO19/SDHCD4
GPIO20/SDHCD5
ETH_TXD1_2
ETH_TXD0_2
ULPI_NXT/USB1_DM
ULPI_DIR/USB1_DP
ULPI_D5/USB2_DM
ULPI_D6/USB2_DP
ULPI_D7
GND_20
LCD_HSYNC/LCD_P24
LCD_VSYNC/LCD_P25
AN13
AN12
GND_21
LCD_CLK/LCD_P26
TMR11
TMR10
GPIO21
3.3V_9
PWM15
PWM14
PWM13
PWM12
CANRX1
CANTX1
GPIO22
LCD_OE/LCD_P27
LCD_D0/LCD_P0
LCD_D1/LCD_P1
LCD_D2/LCD_P2
LCD_D3/LCD_P3
GND_22
GPIO23
GPIO24
LCD_D12/LCD_P12
LCD_D13/LCD_P13
LCD_D14/LCD_P14
IRQ_P/SPI2_CS2
IRQ_O/SPI2_CS3
IRQ_N
IRQ_M
IRQ_L
IRQ_K
IRQ_J
IRQ_I
LCD_D18/LCD_P18
LCD_D19/LCD_P19
GND_23
EBI_AD20/LCD_P42
EBI_AD21/LCD_P43
EBI_AD22/LCD_P44
EBI_AD23/LCD_P45
EBI_AD24/LCD_P46
EBI_AD25/LCD_P47
EBI_AD26/LCD_P48
EBI_AD27/LCD_P49
EBI_AD28/LCD_P50
EBI_AD29/LCD_P51
EBI_AD30/LCD_P52
EBI_AD31/LCD_P53
LCD_D20/LCD_P20
LCD_D21/LCD_P21
LCD_D22/LCD_P22
GND_24
3.3V_10
5V_3
GND_17
3.3V_8
ELE_PS_SENSE_2
GND_18
GND_19
SPI2_CLK
SPI2_CS1
SPI2_CS0
SPI2_MOSI
SPI2_MISO
SECONDARY
GPIO26
ETH_MDC_2
ETH_MDIO_2
ETH_RXCLK_2
ETH_RXDV_2
GPIO27/SDHCD6
GPIO28/SDHCD7
ETH_RXD1_2
ETH_RXD0_2
ULPI_D0/USB3_DM
ULPI_D1/USB3_DP
ULPI_D2/USB4_DM
ULPI_D3/USB4_DP
ULPI_D4
GND_28
AN11
AN10
AN9
AN8
GND_29
GPIO29
TMR9
TMR8
GPIO30
3.3V_13
PWM11
PWM10
PWM9
PWM8
RXD2/TSI0
TXD2/TSI1
RTS2/TSI2
CTS2/TSI3
RXD3/TSI4
TXD3/TSI5
RTS3/TSI6
CTS3/TSI7
GND_30
LCD_D4/LCD_P4
LCD_D5/LCD_P5
LCD_D6/LCD_P6
LCD_D7/LCD_P7
LCD_D8/LCD_P8
LCD_D9/LCD_P9
LCD_D10/LCD_P10
LCD_D11/LCD_P11
TMR16
TMR15
TMR14
TMR13
LCD_D15/LCD_P15
LCD_D16/LCD_P16
LCD_D17/LCD_P17
GND_31
EBI_BE_32_24/LCD_P28
EBI_BE_23_16/LCD_P29
EBI_BE_15_8/LCD_P30
EBI_BE_7_0/LCD_P31
EBI_TSIZE0/LCD_P32
EBI_TSIZE1/LCD_P33
EBI_TS/LCD_P34
EBI_TBST/LCD_P35
EBI_TA/LCD_P36
EBI_CS4/LCD_P37
EBI_CS3/LCD_P38
EBI_CS2/LCD_P39
EBI_CS1/LCD_P40
GPIO31/LCD_P41
LCD_D23/LCD_P23
GND_32
3.3V_14
5V_4
GND_25
3.3V_11
3.3V_12
GND_26
GND_27
SCL2
SDA2
GPIO25
ULPI_STOP
ULPI_CLK
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
C26
C27
C28
C29
C30
C31
C32
C33
C34
C35
C36
C37
C38
C39
C40
C41
C42
C43
C44
C45
C46
C47
C48
C49
C50
C51
C52
C53
C54
C55
C56
C57
C58
C59
C60
C61
C62
C63
C64
C65
C66
C67
C68
C69
C70
C71
C72
C73
C74
C75
C76
C77
C78
C79
C80
C81
C82
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
AGND
AGND
AGND
TWR_VCC3V3
AGND
AGND
TWR_VCC3V3
AGND
TWR_VCC5
AGND
TWR_VCC3V3
Schematics
Figure 13. Schematic Part 3
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
Board Layout
7
Board Layout
7.1
Silkscreen
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
19
Board Bill of Materials
8
Board Bill of Materials
Table 9. Bill of Materials (1)
Item
Qty
Schematic Label
Value
Description
Part Number
Assy
Opt
NXP Components
1
1
U1
IC CHIP VALVES AND PUMP CTRL 5.0 V/3.3 V
LQFP48
MC34SB0410AE
Capacitors
2
2
C1, C2
0.22 F
CAP CER 0.22 F 50 V 5% X7R 1206
C1206C224J5RACTU
3
1
C3
0.1 F
CAP CER 0.1 F 50 V 10% X7R 0603
GRM188R71H104KA93D
4
1
C4
0.033 F
CAP CER 0.33 F 50 V 10% X7R 1206
MCCE334K3NRTF
5
1
C5
1.0 F
CAP CER 1 F 25 V 10% X7R 0603
0603X105K250SNT
6
1
C6
1000 PF
CAP CER 1000 PF 25 V 5% C0G CC0603
C0603C102J3GAC
7
4
C7, C10, C11, C12
2200 PF
CAP CER 2200 PF 50 V 5% X7R 0805
MCCE222J2NRTF
8
1
C8
10 F
CAP CER 10 F 50 V 10% X7S AEC-Q200 1210
GCM32EC71H106KA03
9
2
C9, C13
0.1 F
CAP CER 0.1 F 50 V 5% C0G AEC-Q200 1206
CGA5L2C0G1H104J160AA
(2)
Diodes
10
1
D1
10BQ015
DIODE SCH RECT 1.0 A 15 V SMB
10BQ015TRPBF
11
2
D2, D3
GDZ15B-E3-08
DIODE ZNR 5.0 MA 15 V 0.2 W AEC-Q101
SOD-323
GDZ15B-E3-08
12
3
D4, D14, D15
ORANGE
LED OR SGL 30 MA 0805 SMT
APHCM2012SECK-F01
13
2
D5, D12
GREEN
LED GRN SGL 30 MA SMT 0805
LTST-C171KGKT
14
5
D6, D7, D10, D11, D13
SS2H10
DIODE SCH RECT 2.0 A 100V DO-214AA
SS2H10-E3/52T
15
4
D8, D9, D17, D18
STPS2H100AY
DIODE PWR RECT SCH 2.0 A 100 V AEC-Q101
SMA
STPS2H100AY
16
1
D16
BLUE
LED BLUE SGL 30 mA 2.6 V 0603
UT-692NB
Resistors
17
1
R1
0
RES MF ZERO OHM 1/10 W -- AEC-Q200 0603
CRCW06030000Z0EA
18
2
R2, R8
2.0 K
RES MF 2 K 1/8 W 1% 0805
CR0805-FX-2001ELF
19
2
R3, R4
100 
RES MF 100 OHM 1/10W
CRCW0603100RFKEA
20
4
R5, R9, R10, R11
1.8 K
RES MF 1.8 K 1/10 W 5% 0603
WR06X182JTL
21
1
R6
10 K
RES MF 10 K 1/4 W 5% 1206
CR1206JW103ELF
22
2
R7, R13
1.0 K
RES MF 1.0 K 1/10 W 0.5% 0603
MCT06030C1001DP500
23
1
R12
0
RES MF ZERO OHM 1/10 W
CRCW06030000Z0EA
(2)
Switches, Connectors, Jumpers and Test Points
24
2
J1, J8
CON_2_TB
HDR 2x8 2.54 MM FEMALE (STACKABLE) SAMTEC
SSQ-108-23-G-D
25
3
J2, J3, J4
CON_4_TB
HDR 2x10 2.54 MM FEMALE (STACKABLE) SAMTEC
SSQ-110-23-G-D
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
20
NXP Semiconductors
Board Bill of Materials
Table 9. Bill of Materials (1) (continued)
Item
Qty
Schematic Label
Value
Description
Part Number
26
2
J5, J6
HDR_1X3
CON 1x5 USB MINI-B RA SHLD SKT SMT 0.8
MM SP 156HAU -- HIROSE
UX60-MB-5ST
27
2
J7, J9
HDR 1X2 TH
HDR 1x2 TH 100 MIL SP 339H AU 118L - HARWIN INC
M20-9990245
28
1
J12
PCI EXPRESS
TOWER SYSTEM
CON 1X3 TB TH 3.81 MM SP 201H -- 138L +
TERM BLOCK PLUG 3.81 MM 3POS - SUBASSEMBLY
210-80099, 211-79220
29
1
J13
HDR_2X10
CON 1X2 TB TH 3.81 MM SP 201H -- 138L +
TERM BLOCK PLUG 3.81 MM 2POS - SUBASSEMBLY
210-8009, 210-80098
30
1
Q1
RJK0301DPB
TRANS NMOS PWR 24 A 30 V SO8 - Vishay
Technology
SI4156DY-T1-GE3
31
15
TP1, TP2, TP3, TP4,
TP5, TP6, TP7, TP8,
TP9, TP10, TP11,
TP12, TP13, TP14,
TP15
TEST POINT
WHITE
TEST POINT WHITE 40 MIL DRILL 180 MIL TH
109L
5002
32
1
SW1
SW SMT 4.0 MM FMS 0.1 A MAX 16 V MAX
ROHS COMPLIANT
7914J-1-000E
Assy
Opt
(2)
Notes
1. Freescale does not assume liability, endorse, or warrant components from external manufacturers are referenced in circuit drawings or tables.
While Freescale offers component recommendations in this configuration, it is the customer’s responsibility to validate their application.
2. Do Not Populate
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
21
References
9
References
Following are URLs where you can obtain information on related NXP products and application solutions:
Table 10. References
NXP Support Pages
Description
URL
TWR-SB0410-36EVB
Tool Summary Page
http://www.nxp.com/TWR-SB0410-36EVB
MC34SB0410
Product Summary Page
http://www.nxp.com/MC34SB0410
Tower System
Tower System Modular Development
Board Platform
http://www.nxp.com/tower
TWR-KL25Z48M
Tool Summary Page
http://www.nxp.com/TWR-KL25Z48M
K20D72M
Tool Summary Page
http://www.nxp.com/K20D72M
KV31F120M
Tool Summary Page
http://www.nxp.com/KV31F120M
Kinetis Design Studio
Software
http://www.nxp.com/kinetis
CodeWarrior
Software
http://www.nxp.com/codewarrior
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
22
NXP Semiconductors
References
9.1
Support
Visit www.nxp.com/support for a list of phone numbers within your region.
9.2
Warranty
Visit www.nxp.com/warranty to submit a request for tool warranty.
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
NXP Semiconductors
23
Revision History
10
Revision History
Revision
1.0
Date
1/2016
Description of Changes
•
Initial release
TWR-SB0410-36EVB Tower System Platform, Rev. 1.0
24
NXP Semiconductors
How to Reach Us:
Information in this document is provided solely to enable system and software implementers to use Freescale products.
Home Page:
nxp.com
There are no express or implied copyright licenses granted hereunder to design or fabricate any integrated circuits based
Web Support:
nxp.com/support
Freescale reserves the right to make changes without further notice to any products herein. Freescale makes no
on the information in this document.
warranty, representation, or guarantee regarding the suitability of its products for any particular purpose, nor does
Freescale assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any
and all liability, including without limitation consequential or incidental damages. “Typical” parameters that may be
provided in Freescale data sheets and/or specifications can and do vary in different applications, and actual performance
may vary over time. All operating parameters, including “typicals,” must be validated for each customer application by
customer’s technical experts. Freescale does not convey any license under its patent rights nor the rights of others.
Freescale sells products pursuant to standard terms and conditions of sale, which can be found at the following address:
http://www.nxp.com/terms-of-use.html.
Freescale and the Freescale logo are trademarks of Freescale Semiconductor, Inc., Reg. U.S. Pat. & Tm. Off.
SMARTMOS is a trademark of Freescale Semiconductor, Inc. All other product or service names are the property of their
respective owners.
© NXP Semiconductors N.V. 2016. All rights reserved.
Document Number: KTTWRSB0410-36EVBUG
Rev. 1.0
1/2016