KIT33812EKEVBE, Evaluation Board - User Guide

Freescale Semiconductor
User’s Guide
Document Number: KT33812UG
Rev. 2.0, 7/2009
KIT33812EKEVBE Evaluation Board
Figure 1. KIT33812EKEVBE Evaluation Board
Table of Contents
1
Kit Contents / Packing List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
2
Important Notice . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
3
Kit Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
4
Required Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
5
EVB Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
6
Using Hardware. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
7
EVB Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
8
Board Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
9
KIT33812EKEVBE Bill of Material . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
10
References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
11
Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
© Freescale Semiconductor, Inc., 2009. All rights reserved.
Kit Contents / Packing List
1
Kit Contents / Packing List
•
•
KIT33812EKEVBE Evaluation Board
CD33812
KIT33812EKEVBE Evaluation Board, Rev. 2.0
2
Freescale Semiconductor
Important Notice
2
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 EVB 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 EVB 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 Buyer purchase or use Freescale products for any such unintended or unauthorized application, 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 that
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., 2009. All rights reserved.
KIT33812EKEVBE Evaluation Board, Rev. 2.0
Freescale Semiconductor
3
Kit Introduction
3
Kit Introduction
KIT33812EKEVBE Evaluation Board (EVB) is an easy-to-use circuit board used to exercise all the
functions of the MC33812 Multifunctional Ignition and Injector Driver. A Personal Computer (PC)
communicates to the EVB through a USB/SPI Dongle (KITUSBSPIDGLEVME) connected to the PC’s
USB port. The Freescale SPIGen program provides the user Interface to the MC33812 EVB’s SPI port
and is used to send commands to the IC.
3.1
EVB Features
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Designed to operate over the range of ~4.7V ≤ VPWR ≤ 36V
Fuel Injector driver - Current Limit - 4.0A Typical
Ignition pre-driver can drive IGBT or Darlington bipolar junction transistor
Ignition pre-driver has independent high and low side outputs
Relay driver - Current Limit - 4.0A Typical
Lamp driver- Current Limit - 1.5A Typical
All external outputs protected against short to battery, over-current
Ignition and other drivers protected against over-temperature
Interfaces directly to MCU Using 5.0V parallel interface
VCC voltage pre-regulator provides +5.0V power for MCU
MCU Power On RESET generator
MCU watchdog timer circuit with parallel refresh/time setting line
Independent fault annunciation outputs for ignition and injection
ISO-9141 K-Line transceiver for communicating diagnostic messages
Pb-free packaging designated by suffix code EK
KIT33812EKEVBE Evaluation Board, Rev. 2.0
4
Freescale Semiconductor
Required Equipment
4
Required Equipment
Minimum required equipment:
•
•
•
•
•
•
Power supply: 5.5 to 18V
USB-SPI Dongle
USB Cable
16-wire ribbon cable with 16 pins ribbon cable connectors on both sides
USB enabled computer with Windows XP
SPIGen software (Setup.exe)
KIT33812EKEVBE Evaluation Board, Rev. 2.0
Freescale Semiconductor
5
EVB Block Diagram
5
EVB Block Diagram
MC33812 SMALL ENGINE CONTROL EVB
BLOCK DIAGRAM
VBAT
+
12V
-
VPWR
LED
Reverse Battery
and Transient
Protection
VPWR
IGNITION
SUPPLY
JUMPER
VCC
(+5V)
VCC
LED
VCC
(+5V)
8
VPWR
6
IGNSUP 3
4
IGNFB
2
IGNOUTH 1
IGNOUTL
VCCSENS
VCC PASS
TRANSISTOR
7
VCCREF
OUTPUTS
VPWR
IGNITION
LED
IGBT and
Feedback
divider
29
LAMP OUTPUT
WD_INH
INJECTOR
LED
INPUTS
INJOUT
USB/SPI Dongle
Connector
19
INJECTOR OUTPUT
RELAY
LED
WDRFSH
ROUT
DATA4
17
DATA3
15
DATA2
14
RIN
DATA1
DATA0
16
16
13
IGNIN
INJIN
VPWR
27
MC33812
2
WDRFSH
CNTL0
15
VPWR
LAMPOUT 24
1
WD_INH
JUMPER
3
USB ON
LED
IGNITION COIL OUTPUT
LAMP
LED
SOFT
VCC
1
VPWR
VPWR
22
RELAY OUTPUT
MTX
LAMPIN
RESETB
9
INJFLT 10
11
RELFLT
12
IGNFLT
18
MRX
RESET LED
6
RESETB
INJ. FAULT LED
INJFLT
REL. FAULT LED
RELFLT
IGN. FAULT LED
IGNFLT
MRX STATE LED
MRX
GND
1
N/C
32
TEST3
31 TEST2
30 TEST1
20
TM_EN
3
1
VPWR
ISO9141
5
GNDs
ISO 9141
CONNECTOR
LIN_PWR
4
2
23, 25, 26, EP
Figure 1. EVB Block Diagram
KIT33812EKEVBE Evaluation Board, Rev. 2.0
6
Freescale Semiconductor
Using Hardware
6
Using Hardware
This EVB consists of a MC33812 Small Engine Control Circuit, a USB to SPI Dongle interface, power
conditioning circuitry, and a set of Input Select Jumpers. All +5 volt VCC power required by the EVB is
obtained from the MC33812 built-in power regulator.
6.1
LED Display
Twelve LED’s are provided as visual output devices for the MC33812 EVB board. A list of the LED
devices is shown below:
1. VPWR LED - Indicates when +12V supply is connected to the EVB.
2. VCC LED - Indicates that the MC33812 internal +5V regulator is running and providing the +5V VCC voltage supply
3. IGNITION LED - Indicates that the Ignition Input, IGNIN, is active and the Ignition Output driver is turned on.
4. LAMP LED - Indicates that the Lamp Input, LAMPIN, is active and the Lamp Output is pulled low.
5. INJECTOR LED - Indicates that the Injector Input, INJIN, is active and the Injector Output is pulled low.
6. RELAY LED - Indicates that the Relay Input, RIN, is active and the Relay Output is pulled low.
7. RESET LED - Indicates that the RESETB output logic level is active (low).
8. INJECTOR FAULT LED - Indicates that there is either a short to Battery, Open Load or other fault on the Injector output.
9. RELAY FAULT LED - Indicates that there is either a short to Battery, Open Load or other fault on the Relay output.
10. IGNITION FAULT LED - Indicates that there is either a short to Battery, Open Load or other fault on the Ignition IGBT output.
11. MRX STATE LED - Indicates the state of the MRX line as a result of the data on the ISO9141 line.
12. USB ON LED - Indicates that the USB SPI dongle is connected properly and is attached to an active USB port on a PC.
6.2
Selection Jumper Definitions
The EVB contains four jumpers that provide certain selections for the MC33812 as follows (Bold = default
factory setting):
JUMPER NAME
WD_INH
WDRFSH
LIN_PWR
IGNITION SUPPLY
6.2.1
JUMPER POSITION
1-2 / 2-3
OFF/ON
OFF/ON
1 -2 /2 - 3
/ CONNECTION
+5V PU/GND
OPEN/CNTL0
FLOAT/VPWR
VCC/VPWR
WD_INH Jumper
The WD_INH is the Watch Dog Inhibit enable/disable setting jumper. With a shorting jumper between pins
1 and 2, the WD_INH pin on the MC33812 is pulled high through a 4.7K resistor to +5 V, causing the
Watch Dog circuit to be disabled. With the shorting jumper between pins 2 and 3, or left off, the WD_INH
pin on the MC33812 is pulled to GND, enabling the Watch Dog circuit.
KIT33812EKEVBE Evaluation Board, Rev. 2.0
Freescale Semiconductor
7
Using Hardware
6.2.2
WDRFSH Jumper
The WDRFSH jumper provides a connection from the MC33812’s WDRFSH line to the CNTL0 output
from the USB/SPI Dongle interface. The WDRFSH line is the logic input that “Pets” the Watch Dog timer
circuit, preventing it from issuing a RESET signal when the Watch Dog times out Placing a shorting
jumper between pins 1 and 2 connects the CNTL0 signal from the USB/SPI interface to this WDRFSH
pin on the MC33812 circuit. Removing the jumper provides access to the WHDRFSH pin on the MC33812
circuit (on jumper pin 1) to allow other external pulse generators or logic outputs to drive this Watch Dog
reloading input.
6.2.3
LIN_PWR Jumper
The LIN_PWR jumper allows the user to place VPWR on pin 3 of the ISO9141 connector. With a shorting
jumper in place the VPWR supply is connected to pin 3 of the ISO9141 connector. With the jumper
removed, pin 3 of the ISO9141 connector is left floating.
6.2.4
IGNITION SUPPLY Jumper
The MC33812 Ignition Outputs (IGNOUTL and IGNOUTH) are capable of driving either an IGBT
transistor or a Darlington transistor to control a spark coil. The IGNITION SUPPLY selector jumper
connects either the VCC supply or the VPWR supply to the MC33812’s IGNSUP pin to provide the proper
voltage for driving the chosen output transistor type. When a Darlington transistor is being used to drive
the spark coil, the IGNITION SUPPLY Jumper should be placed on pins 1 and 2 to select VCC as the
Ignition Supply, IGNSUP. When an IGBT is the transistor of choice, to drive the spark coil, the IGNITION
SUPPLY Jumper should be placed on pins 2 and 3 (the factory default setting) to select VPWR as the
Ignition Supply Voltage, IGNSUP, to be able to fully enhance the IGBT’s gate.
The factory supplied IGBT can be replaced with a darlington transistor, if desired, however resistors R11
and R13 will need to be changed to provide the additional drive current required by the darlington
transistor.
6.2.5
Input Signal Definitions
The MC33812 has six logic level input signals that are used to control certain outputs or functions inside
the circuit. These six signals are:
1. WDRFSH - Reloads the Watch Dog to prevent issuing a RESET
2. MTX - Provides the transmit data to the ISO9141 line
3. LAMPIN - Controls the state of the LAMPOUT output
4. RIN - Controls the state of the ROUT output
5. IGNIN - Controls the state of the IGNOUTH and IGNOUTL outputs
6. INJIN - Controls the state of the INJOUT output
These six signals are provided by six of the parallel outputs from the USB/SPI interface as described
below:
1. WDRFSH - Connected to the CNTL0 signal
KIT33812EKEVBE Evaluation Board, Rev. 2.0
8
Freescale Semiconductor
Using Hardware
2. MTX - Connected to the DATA4 signal
3. LAMPIN - Connected to the DATA3 signal
4. IN - Connected to the DATA2 signal
5. IGNIN - Connected to the DATA1 signal
6. INJIN - Connected to the DATA0 signal
DATA0 -DATA4 and CNTL0 signals are parallel outputs from the USB/SPI Dongle that can be controlled
directly from the SPIGen program. An example config file called
“MCZ33812_EVB_CONFIGURATION_FILE.spi”
is provided on the CD which contains several batch file examples.
If the user prefers to supply the various MC33812 input signals externally, other than from the USB-SPI
Interface, the connections are available on the connector listed below.
6.2.6
USB/SPI Dongle Connector
The USB/SPI dongle connector is a 16 pin,.1” center, dual-row connector that is designed to interface
directly to the USB/SPI Dongle unit. The USB/SPI dongle connector consists of the following 16 pins –
Pin Number
1*
2*
3*
4*
5*
6
7*
8
9*
10
11
12
13*
14
15
16
Name
CSB
CNTL2
SO
CNTL1
SI
CNTL0
SCLK
DATA4
CNTL3
DATA3
VDD
DATA2
+3.3V
DATA1
GND
DATA0
Description
SPI signal, Chip Select Bar
Parallel port signal CNTL2
SPI signal, Serial Out
Parallel port signal CNTL1
SPI signal, Serial In
Parallel port signal CNTL0
SPI signal, Serial Clock
Parallel port signal DATA4
Parallel port signal CNTL3
Parallel port signal DATA3
+5 Volt VDD from USB
Parallel port signal DATA2
+3.3 V from USB
Parallel port signal DATA1
Signal Ground
Parallel port signal DATA0
Notes: * These connections are unused in this EVB.
This connector mates with the 16 conductor flat cable that connects to the USB/SPI Dongle
(KITUSBSPIDGLEVME).
KIT33812EKEVBE Evaluation Board, Rev. 2.0
Freescale Semiconductor
9
Using Hardware
6.2.7
Screw Terminal Connections
The MC33812 board contains four output and one input screw terminal connections to allow easy access
to the MC33812’s circuits.
The diagram below shows the locations of the screw terminals and their functional definitions:
IGNITION OUT
LAMP OUT
VBAT
INJECTOR OUT
VCC
VCC
RELAY OUT
ISO9141
Figure 2. MC33812 EVB Screw Connectors
6.2.8
VBAT Input Connector
The VBAT Connector is a 2 position screw terminal that provides +12 Volt and Ground Terminals. The
Ground terminal is marked “GND” and the +12 Volt Terminal is marked “VBAT”.
6.2.9
ISO 9141 Connector
The ISO9141 connector is a four pin Input/Output connector that provides power, ground and the
ISO9141 bidirectional signal.
6.2.10 Output Connectors
There are four Output Connectors which are 2 position screw terminals that provides the following
signals:
1. 1) IGNITION OUT
•
Screw Terminal 1 - Low side drive, IGNOUT
•
Screw Terminal 2 - VPWR
2. 2) LAMP OUT
•
Screw Terminal 1 - Low Side LAMPOUT
•
Screw Terminal 2 - VPWR
KIT33812EKEVBE Evaluation Board, Rev. 2.0
10
Freescale Semiconductor
Using Hardware
3. 3) INJECTOR OUT
•
Screw Terminal 1 - Low side INJOUT
•
Screw Terminal 2 - VPWR
4. 4) RELAY OUT
•
Screw Terminal 1 - LOW side ROUT
•
Screw Terminal 2 - VPWR
6.2.11 MC33812 EVB Setup and Example Demonstrations
To perform the examples included in the CD the following connections and setup must be performed:
1. Make sure the SPIGen 5.0X program is installed on the PC and it can communicate with the USB/SPI Dongle as
described in that kit’s documentation.
2. Connect the USB/SPI Dongle to the MC33812 EVB via a 16 pin ribbon cable. Make sure to orient the cable so
that pin1 on both the USB/SPI Dongle and the MC33812 EVB are connected correctly, pin 1 to pin 1.
3. Connect the USB/SPI Dongle to a PC, LED 2 on the USB/SPI Dongle and the USB ON LED on the MC33812
board should both be illuminated.
4. Attach a +12 VDC supply (do not turn on power yet) to the VBAT connector on the MC33812 EVB, making sure
to observe the GND and +12V terminals. The current capability of the +12V supply should exceed the maximum
total current that the number of simultaneously ON loads will require.
5. Attach loads to the IGNITION OUT, LAMP OUT, INJECTOR OUT and RELAY OUT and ISO9141 terminals as
appropriate.
6. Launch SPIGen and from the “File” menu, select “Open” and browse to the CD containing the
“MCZ33812_EVB_CONFIGURATION_FILE.spi” file. The title on the SPIGen screen should change from
“Generic SPI Generator” to “MC33812 SPI Generator”.
7. Turn on the +12 Volt Supply. Verify that all is working correctly by observing the VPWR and VCC LEDs which
should be illuminated. Click on the “Extra Pins” button in the SPIGen main screen and then click on the following
buttons:
8. Click on the Data 0 “High” button. The INJECTOR load and LED should turn on. Clicking on the DATA 0 “Low”
button should turn off the load and LED.
9. Click on the Data 1 “High” button. The IGNITION load and LED should turn on. Clicking on the DATA 1 “Low”
button should turn off the IGNITION load and LED.
10. Click on the Data 2 “High” button. The RELAY load and LED should turn on. Clicking on the DATA 2 “Low”
button should turn off the RELAY load and LED.
11. Click on the Data 3 “High” button. The LAMP load and LED should turn on. Clicking on the DATA 3 “Low” button
should turn off the LAMP load and LED.
12. Click on the Data 4 “High” button. The ISO9141 load should turn on. Clicking on the DATA 3 “Low” button
should turn off the ISO9141 load.
If everything described so far occurs then you are ready to proceed with the remaining examples.
KIT33812EKEVBE Evaluation Board, Rev. 2.0
Freescale Semiconductor
11
EVB Schematic
EVB Schematic
VCC
VCC
VCC
VCC
7
Figure 3. EVB Schematic
KIT33812EKEVBE Evaluation Board, Rev. 2.0
12
Freescale Semiconductor
Board Layout
8
Board Layout
8.1
Assembly Drawing
VCC
VCC
Figure 4. Assembly Drawing
KIT33812EKEVBE Evaluation Board, Rev. 2.0
Freescale Semiconductor
13
Board Layout
8.2
PCB Top Layer
Figure 5. PCB Top Layer
KIT33812EKEVBE Evaluation Board, Rev. 2.0
14
Freescale Semiconductor
Board Layout
8.3
PCB Bottom Layer
Figure 6. PCB Bottom Layer
KIT33812EKEVBE Evaluation Board, Rev. 2.0
Freescale Semiconductor
15
KIT33812EKEVBE Bill of Material
9
KIT33812EKEVBE Bill of Material
Value
Package
Mfr.
Mfr. Part #
Digi-Key Part #
Location
Orienta
Qty
tion
C1
10 uF/ 50V
PANASONIC_E
Panasonic
EEE-HA1H100P
PCE4209CT-ND
(1097.244 2355.906
R90
1
C2
2.2 uF/35V
PANASONIC_C
Panasonic
EEE-FC1V2R2R
PCE4027CT-ND
(1377.988 1750.504
R270
1
C3
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(437.319 1603.524
R0
16
C4
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(640.445 465.862)
R0
6
C5
0.1 uF
C0805
Murata
Electronics NA
GCM21BR72A104KA37L 490-4789-1-ND
(1555.177 1790.657)
R90
C6
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(3758.815 495.823)
R180
C7
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(2922.146 1059.469)
R270
C8
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(3536.098 1457.717)
R180
C9
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(3548.012 1044.921)
R180
C10
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(3407.654 1371.933)
R90
C11
0.1 uF
C0805
Murata
Electronics NA
GCM21BR72A104KA37L 490-4789-1-ND
(1317.173 2360.283)
R270
C12
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(639.197 353.756)
R0
C13
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(640.256 555.61)
R0
C14
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(641.079 647.634)
R0
C15
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(964.902 1242.331)
R0
C16
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(965.346 1333.961)
R0
C17
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(971.398 1129.232)
R0
C18
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(964.386 1424.031)
R0
C19
10 nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(962.583 1513.295)
R0
C20
.1uF
C0805
Murata
Electronics NA
GCM21BR72A104KA37L 490-4789-1-ND
(1096.748 152.161)
R180
C22
.1uF
C0805
Murata
Electronics NA
GCM21BR72A104KA37L 490-4789-1-ND
(1524.047 162.972)
R180
C23
.1uF
C0805
Murata
Electronics NA
GCM21BR72A104KA37L 490-4789-1-ND
(1661.445 1263.165)
R270
C24
.1uF
C0805
Murata
Electronics NA
GCM21BR72A104KA37L 490-4789-1-ND
(2784.752 589.614)
R0
C25
10nF
C0805
Murata
Electronics NA
GCM2195C1H103JA16D 490-4783-1-ND
(639.492 258.76)
R0
Part Name
Capacitors
KIT33812EKEVBE Evaluation Board, Rev. 2.0
16
Freescale Semiconductor
KIT33812EKEVBE Bill of Material
Part Name
Location
Orienta
Qty
tion
Value
Package
Mfr.
Mfr. Part #
Digi-Key Part #
D1
MBRS360T3
SMC
ON
Semiconductor
MBRS360T3G
MBRS360T3GOSCT-ND (684.646 2468.898)
R180
1
D2
SMBJ40
DO214AA
Little Fuse
SMBJ40A
SMBJ40ALFCT-ND
(673.228 2243.622)
R180
1
D4
S1GB-13
DO214AA
Diodes, Inc.
S1GB-13-F
S1GB-FDICT-ND
(3366.72 1850.402)
R180
3
D5
S1GB-13
DO214AA
Diodes, Inc.
S1GB-13-F
S1GB-FDICT-ND
(3320.437 1026.295)
R180
D6
S1GB-13
DO214AA
Diodes, Inc.
S1GB-13-F
S1GB-FDICT-ND
(3788.433 396.815)
R180
D7
SS12
DO214AC
Vishay/General SS12-E3/51T
Semi.
SS12-E3/51TGI-ND
(2892.591 1208.165)
R0
1
Diodes
D8
SMBJ24A
DO214AA
Little Fuse
SMBJ24A
SMBJ24ALFCT-ND
(2652.594 1075.378)
R90
1
+5V_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(1548.839 2062.543)
R270
12
IGNFLT_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(811.244 356.508)
R90
IGNITION_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(3571.504 1976.976)
R180
USB_ON_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(232.22 1661.366)
R270
INJFLT_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(807.516 557.181)
R90
INJ_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(3566.118 1164.677)
R180
RELFLT_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(812.126 461.988)
R90
LAMP_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(3575.409 1571.547)
R180
REL_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(3560.366 756.697)
R180
RESET_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(806.331 653.417)
R90
MRX_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(810.327 258.681)
R90
VPWR_LED
Green LED
CHIPLED_0805
Panasonic
LNJ306G5PRX
P11493CT-ND
(627.709 2114.701)
R90
Q1
FZT753SMD
SOT223
Zetex, Inc.
FZT753TA
FZT753CT-ND
(1566.016 1517.457)
R0
1
Q3
IRGS14C40LP T0263N
BF
International
Rectifier
IRGS14C40LPBF
IRGS14C40LPBF-ND
(2847.083 2282.74)
R270
1
Transistors
Integrated Circuits
U1
MC33812
32SOICEP_FINA Freescale
L
Semiconductor
PCZ33812
N/A
(2176.756 1320.075)
R0
1
U2
4049D
SOP16
Texas
Instruments
CD4049UBNSR
296-14112-1-ND
(1527.165 433.114)
R270
1
R1
0
R0805
Panasonic ECG ERJ-6GEY0R00V
P0.0ACT-ND
(2371.787 1738.146)
R270
2
R2
1K
M0805
Panasonic ECG ERJ-6GEYJ102V
P1.0KACT-ND
(3542.252 2125.283)
R90
8
R3
1K
M0805
Panasonic ECG ERJ-6GEYJ102V
P1.0KACT-ND
(3556.307 1307.303)
R90
R4
1K
M0805
Panasonic ECG ERJ-6GEYJ102V
P1.0KACT-ND
(3562.244 899.949)
R90
R5
1K
M0805
Panasonic ECG ERJ-6GEYJ102V
P1.0KACT-ND
(3570.165 1719.039)
R90
R6
470
M0805
Panasonic ECG ERJ-6GEYJ471V
P470ACT-ND
(1092.555 638.331)
R0
R7
470
M0805
Panasonic ECG ERJ-6GEYJ471V
P470ACT-ND
(1094.189 350.961)
R0
R8
1K
M0805
Panasonic ECG ERJ-6GEYJ102V
P1.0KACT-ND
(800.634 2114.559)
R0
R9
470
M0805
Panasonic ECG ERJ-6GEYJ471V
P470ACT-ND
(237.594 1825.079)
R0
R10
470
M0805
Panasonic ECG ERJ-6GEYJ471V
P470ACT-ND
(1088.65 542.626)
R0
R11
1K
M0805
Panasonic ECG ERJ-6GEYJ102V
P1.0KACT-ND
(2084 2272.008)
R0
R12
4.02K
R1206
Panasonic ECG ERJ-8ENF4021V
P4.02KFCT-ND
(2833.26 1838.929)
R0
R13
1K
M0805
Panasonic ECG ERJ-6GEYJ102V
P1.0KACT-ND
(2086.646 2392.969)
R0
R14
470
M0805
Panasonic ECG ERJ-6GEYJ471V
P470ACT-ND
(1093.539 260)
R0
Resistors
6
2
1
KIT33812EKEVBE Evaluation Board, Rev. 2.0
Freescale Semiconductor
17
KIT33812EKEVBE Bill of Material
Part Name
Value
Package
Mfr.
Mfr. Part #
Digi-Key Part #
Location
Orienta
Qty
tion
Resistors (Continued)
R15
0
R0805
Panasonic ECG ERJ-6GEY0R00V
P0.0ACT-ND
(2100.657 1733.843)
R270
R16
36.0K
R2512
Vishay/Dale
541-36KXCT-ND
(3073.795 1802.346)
R270
R17
1K
M0805
Panasonic ECG ERJ-6GEYJ102V
P1.0KACT-ND
(2827.925 1061.657)
R270
R18
470
M0805
Panasonic ECG ERJ-6GEYJ471V
P470ACT-ND
(1544.917 1978.461)
R180
R19
4.7K
M0805
Panasonic ECG ERJ-6GEYJ472V
P4.7KACT-ND
(1090 740)
R0
R20
470
M0805
Panasonic ECG ERJ-6GEYJ471V
P470ACT-ND
(1094.98 448.803)
R0
R21
4.7K
M0805
Panasonic ECG ERJ-6GEYJ472V
P4.7KACT-ND
(1849.992 1745.831)
R180
CRCW251236K0JNEG
1
Headers & Jumpers
OUTPUTS
MA06-1
MA06-1
Tyco Electronics 87224-6
Amp
A26551-ND
(496.043 403.72)
R90
1
LIN_PWR
MA02-1
MA02-1
Tyco Electronics 87224-2
Amp
A26543-ND
(2885.441 771.134)
R270
2
TEST1
MA01-1
MA01-1
Tyco Electronics 87224-1
Amp
A26541-ND
(2367.618 1943.13)
R0
6
TEST2
MA01-1
MA01-1
Tyco Electronics 87224-1
Amp
A26541-ND
(2093.524 1937.445)
R0
TEST3
MA01-1
MA01-1
Tyco Electronics 87224-1
Amp
A26541-ND
(2617.248 1943.228)
R180
GND
MA01-1
MA01-1
Tyco Electronics 87224-1
Amp
A26541-ND
(486.169 2024.677)
R0
USB_SPI_DONGL MA08-2
E
MA08-2
Tyco Electronics 9-146261-0-04
Amp
A34268-04-ND
(230.394 1179.28)
R90
VCC
MA01-1
MA01-1
Tyco Electronics 87224-1
Amp
A26541-ND
(1186.402 1599.343)
R180
VPWR
MA01-1
MA01-1
Tyco Electronics 87224-1
Amp
A26541-ND
(952.776 2105.823)
R180
IGNSUP
MA03-1
MA03-1
Tyco Electronics 87224-3
Amp
A26545-ND
(1849.13 1509.134)
R90
WDRFSH
MA02-1
MA02-1
Tyco Electronics 87224-2
Amp
A26543-ND
(2188.618 977.976)
R180
WD_INH
MA03-1
MA03-1
Tyco Electronics 87224-3
Amp
A26545-ND
(2631.469 1574.665)
R0
IGNITION OUT
X2
AK500/2
Phoenix Contact 1729128
277-1247-ND
(3781.425 1963.713)
R90
LAMP OUT
X4
AK500/2
Phoenix Contact 1729128
277-1247-ND
(3783.579 1563.244)
R90
INJECTOR OUT
X5
AK500/2
Phoenix Contact 1729128
277-1247-ND
(3786.181 1163.307)
R90
RELAY OUT
X6
AK500/2
Phoenix Contact 1729128
277-1247-ND
(3788.016 761.063)
R90
VBAT
AK500/2
Phoenix Contact 1729128
277-1247-ND
(170.945 2167.244)
R270
Molex Waldom
Elec.
WM3901-ND
(3189.016 677.563)
R0
1
2
Connectors
VBAT
ISO9141
44068ANGLE 5566-4A
39-29-1048
5
1
Notes: Freescale does not assume liability, endorse, or warrant components from external manufacturers that 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.
KIT33812EKEVBE Evaluation Board, Rev. 2.0
18
Freescale Semiconductor
References
10
References
Following are URLs where you can obtain information on other Freescale products and application
solutions:
Products
Links
Data Sheet MC33812
www.freescale.com/files/analog/doc/data_sheet/MC33812.pdf
Freescale’s Web Site
www.freescale.com
Freescale’s Analog Web Site
www.freescale.com/analog
Freescale’s Powertrain an Engine Control
www.freescale.com/powertrain_and_engine_control
Freescale’s Automotive Applications
www.freescale.com/automotive
KIT33812EKEVBE Evaluation Board, Rev. 2.0
Freescale Semiconductor
19
Revision History
11
Revision History
REVISION
2.0
DATE
7/2009
DESCRIPTION OF CHANGES
•
Initial Release
KIT33812EKEVBE Evaluation Board, Rev. 2.0
20
Freescale Semiconductor
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KT33812UG
Rev. 2.0
7/2009