EVB-EMC1033 SMSC, EVB-EMC1033 Datasheet - Page 5

EVB-EMC1033

Manufacturer Part Number

EVB-EMC1033

Description

MCU, MPU & DSP Development Tools Evaluation Board

Manufacturer

SMSC

Datasheet

1.EVB-EMC1002.pdf (8 pages)

Specifications of EVB-EMC1033

Processor To Be Evaluated

EMC1033

Interface Type

USB

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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EMC1002/EMC1033/EMC1402 EVB User Manual

SMSC EMC1002/EMC1033/EMC1402

3 Circuit Description

3.1

3.2

3.3

3.4

3.5

3.6

3.7

Introduction

EMC1002/1033/1402

USB to SMBus Bridge

Remote Diode with Resistance Error Correction (R.E.C.)

Power Source

Fan Drive Circuit

System Interrupts / LEDs

The EMC1002 EVB provides the means to demonstrate EMC1002/1033/1402 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.

The EMC1002/1402 are SMBus temperature sensors 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

EMC1002/1033/1402 is via the SMBus.

assert when temperatures exceed programmed limits.

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.

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 EMC1002/1033/1402 ’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.

This demo board derives +5V power from the USB port. The bridge microcontroller has an internal

voltage regulator that supplies +3.3V to the EMC1002/1033/1402 and other EVB circuits.

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

the base and emitter voltages are high and the fan will be OFF. When the

asserted low, the base voltage is set by the resistor divider R3/R4. When the

asserted low, the transistor is turned ON fully, resulting in the maximum fan drive voltage for this circuit,

which is approximately 4.1V.

The

Alert (red) status The

RegMan application.

Alert/Therm2

Addr

and

Therm

Alert/Therm2

outputs are asserted low, no current flows through Q1’s base terminal so

outputs each have a dual-color LED to indicate the Normal (green) and

line is also routed to the USB bridge to provide Alert status to the

Alert/Therm2

and

Addr

Therm

outputs may be configured to

Alert/Therm2

Revision 1.1 (08-21-07)

Addr

Therm

output is

EVB-EMC1033 SMSC, EVB-EMC1033 Datasheet - Page 5

EVB-EMC1033

Specifications of EVB-EMC1033

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