SMSC Network Card EVB EMC1033 User Manual
EVB-EMC1002/EMC1033 User Manual  
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SMSC EMC1002/EMC1033  
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EVB-EMC1002/EMC1033 User Manual  
2 Getting Started  
2.1  
System Requirements  
To use the EVB you will need:  
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A PC running Windows 2000 or XP  
Display resolution 800x600 (or larger to view several windows simultaneously)  
An available USB port  
2.1.1  
Feature Summary  
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Windows Register Manager application allows viewing and changing register values as well as  
graphing temperature history  
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USB communication to evaluation board  
Resistive Error Correction can be demonstrated  
LEDs for Alert/Therm2 and Addr/Therm indication as well as USB bridge activity  
Low cost fan control driven by Alert/Therm2 and Addr/Therm outputs  
An external SMBus master may also be used (circuit modifications required)  
2.1.2  
Board Layout  
P2  
EMC  
1002  
EMC1002  
USB  
P6  
Figure 2.1 EMC1002 Board Outline and Silkscreen  
2.1.3  
Installing the EVB  
1. Install the RegMan application and device driver on a PC by running Setup.exe from the RegMan  
distribution CD. A revision history and install/uninstall notes may be found in the readme.txt file on  
the disk.  
2. Connect the supplied USB cable to an available USB port on the PC. Plug the “mini-B” end of the  
USB cable into EVB connector P6. The +3.3V, Bridge ACT, Alert/Therm2 and Addr/Therm LEDs  
should illuminate. After the EVB is connected to the PC the “Find New Hardware” wizard will pop  
up for USB driver installation. Follow the instructions in the readme.txt file to complete the  
installation process.  
3. Start the EVB Software by selecting the Register Manager application from the SMSC folder from  
the Programs Windows Start menu. The EVB will initialize and the Register Manager Help screen  
will appear as in Figure 2.2. The USBAct LED should be blinking when the Register Manager is  
running.  
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EVB-EMC1002/EMC1033 User Manual  
Note: The Windows Register Manager application allows viewing and changing register values for a  
variety of EVBs including the EMC1001, EMC1002, EMC1023 and 1033. The Register  
Manager software only needs to be installed once to support all of these EVBs. The list of  
supported EVBs may be found in the readme.txt file included on the distribution CD.  
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Figure 2.2 Register Manager Help Screen  
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EVB-EMC1002/EMC1033 User Manual  
3 Circuit Description  
3.1  
Introduction  
The EMC1002 EVB provides the means to demonstrate EMC1002/1033 features and to view and  
modify registers. LED Indicators and test points are included to show status information and a fan  
driver circuit linearly drives a 5V fan to 3 different speeds based on programmable temperature limits.  
3.2  
EMC1002/1033  
The EMC1002 is an SMBus temperature sensor with 1 internal and 1 external sensor in an 8 pin  
MSOP package. The EMC1033 has the same features plus support for a second external sensor in  
parallel with Remote 1 using the “Anti-Parallel Diode” (APD) function. Communications with the  
EMC1002/1033 is via the SMBus. Alert/Therm2 and Addr/Therm outputs may be configured to assert  
when temperatures exceed programmed limits.  
3.3  
3.4  
USB to SMBus Bridge  
The USB to SMBus bridge is based on an 8051 microcontroller with integrated USB and SMBus  
interfaces as well as internal flash and RAM. During EVB manufacture, firmware is loaded into the  
bridge that provides the interface between the SMBus and the USB driver. Power is sourced to the  
MCU from the USB interface.  
Remote Diode with Resistance Error Correction (R.E.C.)  
Two diode-connected 2N3904 transistors may be mounted on the EVB, Remote1 and Remote2.  
Remote2 is only populated for the EMC1033 EVB and may be disabled by removing jumpers on JP1.  
The Remote1 diode DN signal path has a series resistor to demonstrate the EMC1002/1033’s R.E.C.  
feature. The resistor may be effectively removed from the circuit by installing a jumper on JP1. See  
the Jumper Settings and Connection List for details on jumper settings.  
3.5  
3.6  
Power Source  
This demo board derives +5V power from the USB port. The bridge microcontroller has an internal  
voltage regulator that supplies +3.3V to the EMC1002/1033 and other EVB circuits.  
Fan Drive Circuit  
The fan drive circuit linearly drives a 5V, 2-wire fan. Three different drive voltages are possible with  
the resistor values used on this EVB, 0, 2.4 and 4.1V. If R6 is populated with an 820 ohm resistor, the  
fan drive voltages will be approximately 2.4, 3.2. and 4.1V. Other fan drive voltage combinations can  
be achieved by varying R3, R4 and R6. R3 and R4 are located on the top side of the PCB next to  
transistor Q1. R6 is on the bottom side of the PCB directly opposite Q1.  
Note: Full fan ON cannot be achieved with this circuit due to transistor voltage drop.  
The fan drive voltage is set by controlling Q1’s base and emitter voltages. When neither the  
Alert/Therm2 or Addr/Therm outputs are asserted low, no current flows through Q1’s base terminal so  
the base and emitter voltages are high and the fan will be OFF. When the Alert/Therm2 output is  
asserted low, the base voltage is set by the resistor divider R3/R4. When the Addr/Therm output is  
asserted low, the transistor is turned ON fully, resulting in the maximum fan drive voltage for this circuit,  
which is approximately 4.1V.  
3.7  
System Interrupts / LEDs  
The Alert/Therm2 and Therm outputs each have a dual-color LED to indicate the Normal (green) and  
Alert (red) status The Alert/Therm2 line is also routed to the USB bridge to provide Alert status to the  
RegMan application.  
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3.8  
Direct SMBus Connect Option  
It is also possible to connect an external SMBus master to the EMC1002 EVB. A few modifications to  
the circuit are required:  
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Cut 3 traces connecting JP4 pins 3-4, 5-6 and 7-8 on the bottom side of the PCB. This will  
disconnect the USB bridge from the SMBus. The pullup resistors for the SMBus SDA, SCL and  
Alert/Therm2 signals are also disconnected so external pullups will need to be supplied by the  
SMBus Master.  
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Install P1 or JP4 to provide an SMBus connector. See the Jumper Settings and Connection List  
for details.  
Optionally remove zero ohm resistor R31. When removed, the USB to SMBus bridge will not supply  
+3.3V to the circuitry so power will need to be provided from an external source. If R31 is left  
installed, power will be supplied from the USB connector when connected to a computer or USB  
hub.  
3.9  
Test Points  
Test points are provided for:  
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Alert/Therm2 output, EMC1002/1033 pin 6  
Addr/Therm output, EMC1002/1033 pin 4  
Ground  
+3.3V power  
+5V_USB power  
3.10  
LED Indicators  
LEDs indicate the status of the following signals:  
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Alert/Therm2, EMC1002/1033 pin 6  
Addr/Therm, EMC1002/1033 pin 4  
+3.3V  
USB Activity - blinking indicates USB traffic  
Bridge Activity, when ON indicates the Bridge is functioning  
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4 Demo Description  
4.1  
Register Manager Overview  
The Register Manager application (RegMan) initially displays the main Help screen, where detailed  
description of the application’s features may be found. The Help screens can be displayed at any time  
by selecting Help from the menubar or pressing the ? button on the toolbar. RegMan enables the user  
to display temperature readings, set temperature limits and read/write configuration register values.  
4.2  
Temperature History Graph  
To open a Temperature History Graph window, select Plot -> Temperature History Plot from the  
menubar. The history plot continuously updates the temperature reported by the temp sensor. There  
are several display options, including which temperatures to display (internal, external, external2 for  
EMC1033 only), whether limits should be displayed, and if so, for which temp sensor. See a typical  
Temperature History Graph in Figure 4.1 below:  
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Figure 4.1 Temperature History Plot  
4.3  
Temperature Limits and Alert/Therm2, Addr/Therm Outputs  
The high and low limits are displayed as dashed lines, initially with values set in the EMC1002.ini file.  
(or EMC1033.ini) These limits may be changed either in the register manager or by dragging the line  
on the history plot. If any of the Temp High or Temp Low Limits are exceeded, the Alert/Therm2 output  
will assert. If the Ext THERM Limit or the Local THERM Limit are exceeded, the Addr/Therm output will  
be asserted.  
The Alert/Therm2 and Addr/Therm outputs are asserted active Low when a temperature exceeds the  
programmed limits. The state of these outputs can be monitored by the associated bi-color LEDs or  
test points on the PCB.  
The Alert/Therm2 output pin can be configured to function as either an SMBus Alert output or as a  
Therm2 output. When configured as an SMBus Alert pin it will follow the SMBus Alert Response protocol  
to clear the assert state. When configured as a Therm2 output it will not require the SMBus Alert  
Response Protocol to clear the pin’s status. This pin is initialized as a Therm2 output by the  
EMC1002/1033.ini file. Change register 0x09 bit #5 to “0” to configure the pin function to Alert mode.  
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Note: Asserting the Addr/Therm output low will also turn on the ARA LED on this EVB. This is because  
the fan driver circuit will pull down the Alert/Therm2 output when Addr/Therm is low. The SMBus  
ARA Protocol will not function in this case.  
4.4  
Fan Driver  
The fan driver utilizes the Alert/Therm2 and Addr/Therm outputs to drive a +5V fan to 3 different fan  
speeds. See the Circuit Description above for information about the fan driver. Normally, the fan driver  
is OFF. To turn the fan ON at low speed, the Alert/Therm2 output must be asserted low. This can be  
caused by dragging the High Temp Limit line below the current temperature on the Zone Temperature  
History graph, using the Register Manager to set the High Temp Limit value lower than the current  
temperature or heating the temp sensor to exceed the limit.  
To turn the fan ON to high speed, the Addr/Therm output must be asserted low. This will occur when  
the current temperature exceeds the associated THERM limit.  
Note: When Alert/Therm2 is configured as a Therm2 output, temperatures exceeding the High Temp  
Limit will cause it to assert, however the Low Temp Limit is ignored.  
4.5  
4.6  
SMBus Alert Protocol (ARA) Support  
When the Alert/Therm2 output is asserted an SMBus Alert interrupt is generated and an indicator light  
will turn RED on the Register Manager panel. Press the Response button to cause RegMan to send  
the SMBus Alert Address to the EMC1002/1033. The EMC1002/1033 will respond with it’s SMBus  
address which is displayed in a text box next to the Response button on the RegMan interface. If the  
temperature is still above the limit, the indicator will remain lit and the Alert/Therm2 output will stay  
asserted. If the temperature is below the limit the indicator will turn OFF and the Alert/Therm2 output  
will de-assert.  
Resistance Error Correction (R.E.C.)  
R.E.C. is normally enabled in the EMC1002/1033, however, for demonstration purposes this evaluation  
board uses a special test mode to disable R.E.C. To show the R.E.C. feature, remove the jumper on  
JP1 pins 1-2. This will insert a 100 ohm series resistor into the circuit and cause a temperature reading  
o
error of approximately 60 C. Replace the jumper and the temperature will return to its correct reading.  
Now enable R.E.C. by entering the value 0x0c into R.E.C. configuration register 0x53. With R.E.C.  
enabled, the temperature will not change when the jumper is removed.  
4.7  
4.8  
Ideality Factor Correction  
The Ideality Factor can be adjusted in Ideality Factor Registers 0x27 and 0x28 (EMC1033 only). These  
registers will normally hold the default value which is correct for the diodes installed on the EVB.  
Increasing or decreasing the value will cause a corresponding change in the temperature reading.  
Anti-Parallel Diode (EMC1033 only)  
The EMC1033 supports an Anti-Parallel Diode (APD) configuration, where 2 diodes share the same  
DP and DN lines but are in opposite polarity to each other. The Remote2 diode can be disconnected  
from the circuit by removing one or both jumpers on JP1 pins 3-4 and 5-6. The APD function is  
normally enabled on device power-up; the function can be disabled by writing a “1” to Configuration  
Register 0x09, bit 0.  
Revision 1.1 (12-14-06)  
SMSC EMC1002/EMC1033  
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