MAX3341EEVKIT - Maxim Integrated Products, Inc.

General Description

The MAX3341E evaluation kit (EV kit) is a fully assem-

bled and tested surface-mount circuit board that evalu-

ates the MAX3341E USB level translator. The EV kit

includes TSSOP and UCSP versions of the MAX3341E

IC, which are configured as a master and slave unit,

respectively. The EV kit is designed to be driven by the

on-board single-ended/differential driver, or directly

connected to a microcontroller (µC) or application-spe-

cific integrated circuit (ASIC).

Features

♦USB 1.1 Full-Speed Compliant (12Mbps)

♦Single-Supply Operation

♦Low-Profile (1.0mm max) Design

♦On-Board Oscillator

♦Included USB A-B Cable

♦Jumper-Selectable Master/Slave Configuration

♦Fully Assembled and Tested

Evaluates: MAX3341E

MAX3341E Evaluation Kit

________________________________________________________________ Maxim Integrated Products 1

DESIGNATION QTY DESCRIPTION

C1, C3 2

10µF ±20%, 20V tantalum capacitors

(B case)

AVX TAJB106M020

C2, C4 2

10µF ±20%, 10V tantalum capacitors

(B case)

AVX TAJB106M010 or

AVX TAJB106M016

C5–C14 10

1.0µF, 10V X7R ceramic capacitors

(0603)

TDK C1608X5R1A105K or

TDK C1608X7R1A105K

D1 1 Green surface-mount LED

J1, J3 2 16-pin headers

JU1, JU2,

JU3, JU6 4 2-pin headers

JU4, JU5,

JU7–JU14 10 3-pin headers

J2 1 USB A connector

Assmann Electronics AU-Y1006

J4 1 USB B connector

Assmann Electronics AU-Y1007

R1, R2 2 15kΩ ±5% resistors (0603)

Component List

Ordering Information

19-2372; Rev 0; 4/02

For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at

1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.

PART TEMP RANGE IC PACKAGE

MAX3341EEVKIT 0°C to +70°C 16 TSSOP, 16 UCSP

DESIGNATION QTY DESCRIPTION

R3–R6 4 23.7Ω ±1% resistors (0603)

R7 1 620Ω ±5% resistor (1206)

R8 1 374kΩ ±1% resistor (0603)

R9 1 750kΩ ±1% resistor (0603)

U1 1 MAX3341EEUE (16-pin TSSOP)

U2 1 MAX3341EEBE (16-pin UCSP)

U3 1 MAX603ESA (8-pin SO)

U4 1 MAX604ESA (8-pin SO)

U5 1 Fairchild NC7SZ14P5 (5-pin SC70)

U6 1 Fairchild NC7WZ17P6 (6-pin SC70)

U7 1 Fairchild NC7SZ05M5 (5-pin SOT23)

Y1 1 6.000MHz crystal oscillator module

D+M, D-M,

D+S, D-S 4Scope probe connectors

(3.5mm diameter)

None 14 Shunts (for JU1–JU14)

None 1 USB A-B cable (5ft or 1.5m )

None 1 MAX3341E EV kit PC board

None 1 MAX3341E data sheet

Evaluates: MAX3341E

Quick Start

Slave Driving Master

Required equipment:

•DC power supply capable of supplying between +6V

and +9V at 1A

•Oscilloscope (>20MHz)

•Two 3.5mm scope probes

•Function generator capable of providing a 6MHz

square wave with an amplitude of 1.8VP-P to 3.3VP-P

The MAX3341E EV kit is fully assembled and tested.

Follow the steps below to verify board operation. Do

not turn on the power supply until all connections

are completed:

1) Ensure that the jumpers are in their default posi-

tions. See Table 1 for shunt positions.

2) Connect the positive output of the function genera-

tor to pin 8 of header J3.

3) Connect the ground of the function generator to

pins 9 and 16 of header J3.

4) Connect the DC power supply to the user pads

marked VSUP and GND.

5) Connect a scope probe to the D+M and the D-M

scope jacks.

6) Set the DC power supply to +6V.

7) Turn on the DC power supply.

8) Plug the USB cable into the USB A socket.

9) Plug the other end of the USB cable into the USB

B socket.

10) The green LED turns on, confirming that a connec-

tion between the master and slave has been made.

11) Turn on the function generator and set it to gener-

ate a 6MHz square wave, with an amplitude of

1.8VP-P.

12) Verify with the oscilloscope that a +3.3V differential

signal is being received on the D+M and D-M lines.

Master Driving Slave

Required equipment:

•DC power supply capable of supplying between +6V

and +9V at 1A

•Oscilloscope (>20MHz)

•Two 3.5mm scope probes

The MAX3341E EV kit is fully assembled and tested.

Follow the steps below to verify board operation.

Do not turn on the power supply until all connec-

tions are completed:

MAX3341E Evaluation Kit

2 _______________________________________________________________________________________

SUPPLIER PHONE FAX WEBSITE

3M 888-364-3577 800-321-6329 www.3m.com

Assmann Electronics 877-277-6266 480-897-7255 www.usa-assmann.com

AVX 843-946-0238 843-626-3123 www.avxcorp.com

Fairchild 888-522-5372 408-721-1635 www.fairchildsemi.com

TDK 847-803-6100 847-390-4405 www.component.tdk.com

Component Suppliers

Note: Please indicate that you are using the MAX3341E when contacting these component suppliers.

JUMPER SHUNT

POSITION DESCRIPTION

JU1 ON 15kΩ resistor on D- line enabled

JU2 ON 15kΩ resistor on D+ line enabled

JU3 OFF Driver disconnected from VPO line of

master (U1)

JU4 OFF Driver disconnected from VMO line of

master (U1)

JU5 1-2 Secondary power supply set to 1.8V

JU6 ON Secondary power supply connected

to circuit

JU7 1-2 Master receive selected

JU8 2-3 Internal 1.5kΩ resistor is disconnected

from the master D+ line

JU9 1-2 Master inputs in differential mode

JU10 2-3 Master suspend disabled

JU11 2-3 Slave transmit selected

JU12 1-2 Internal 1.5kΩ resistor is disconnected

from the slave D+ line

JU13 2-3 Slave inputs in single-ended mode

JU14 2-3 Slave suspend disabled

Table 1. Default Shunt Positions (Slave

Driving Master)

1) Ensure that the jumpers are in their default posi-

tions. See Table 2 for shunt positions.

2) Connect the DC power supply to the user pads

marked VSUP and GND.

3) Connect a scope probe to the D+S and the D-S

scope jacks.

4) Set the DC power supply to +6V.

5) Turn on the DC power supply.

6) Plug the USB cable into the USB A socket.

7) Plug the other end of the USB cable into the USB

B socket.

8) The green LEDl turns on, confirming that a connec-

tion between the master and slave has been made.

9) Verify with the oscilloscope that a +3.3V differential

signal is being received on the D+S and D-S lines.

Detailed Description

The MAX3341E EV kit provides a proven PC board lay-

out to evaluate the MAX3341E. When connecting the

MAX3341E EV kit to an ASIC or µC, it must be interfaced

to appropriate timing signals for proper operation.

Connect the DC power supply to the VSUP pad, and

connect the ground return to the GND pad. See the

MAX3341E EV kit schematic (Figure 1). Refer to the

MAX3341E data sheet for timing requirements.

On-Board Single-Ended/Differential Driver

The MAX3341E EV kit is shipped with an on-board

(master driving slave) single-ended/differential driver.

This driver is used to evaluate the MAX3341E’s switch-

ing characteristics without the user providing his/her

own µC or ASIC. The signal is provided by a crystal

oscillator (Y1), which is fed into an inverter (U5) and a

buffer (U6) with Schmitt trigger inputs. The buffer has

been added to equalize the propagation delays from

the crystal oscillator to the differential inputs VPO and

VMO. Jumpers JU3 and JU4 control the operation of

the on-board driver. See Table 3 for shunt positions.

On-Board Power Supplies

The MAX3341E EV kit contains two on-board power

supplies, that take an unregulated voltage of +6V to +9V

DC and produce a regulated +5V (500mA max) and a

jumper-selectable regulated +1.8V/+3.3V (500mA max).

The +5V supply powers the USB bus, while the +1.8V/

+3.3V supply is an alternative to a user-supplied

µC/ASIC logic power supply. Jumpers JU5 and JU6

control the +1.8V/+3.3V power supply. See Table 4 for

shunt positions.

On-Board Resistive Loads

The MAX3341E EV kit also contains two built-in 15kΩ

loads, which are located on the D+ and D- lines of the

master IC (U1). Jumpers JU1 and JU2 connect these

loads to the line. See Table 5 for shunt positions.

Evaluates: MAX3341E

MAX3341E Evaluation Kit

_______________________________________________________________________________________ 3

JUMPER SHUNT

POSITION DESCRIPTION

JU1 ON 15kΩ resistor on D- line enabled

JU2 ON 15kΩ resistor on D+ line enabled

JU3 ON Driver connected to VPO line of

master (U1)

JU4 1-2 Driver connected to VMO line of

master (U1)

JU5 1-2 Secondary power supply set to 1.8V

JU6 ON Secondary power supply connected

to circuit

JU7 2-3 Master transmit selected

JU8 2-3 Internal 1.5kΩ resistor is disconnected

from the master D+ line

JU9 1-2 Master inputs in differential mode

JU10 2-3 Master suspend disabled

JU11 1-2 Slave receive selected

JU12 2-3 Internal 1.5kΩ resistor is

disconnected from the slave D+ line

JU13 1-2 Slave inputs in differential mode

JU14 2-3 Slave suspend disabled

Table 2. Shunt Positions (Master Driving

Slave)

JUMPER SHUNT

POSITION DESCRIPTION

JU3

JU4

OFF

OFF Driver is disconnected from circuit

JU3

JU4

OFF

2-3

VPO is left for the user to drive,

VMO is grounded

JU3

JU4

OFF

1-2 Invalid jumper setting

JU3

JU4

1-2

Driver is operating in differential

mode

JU3

JU4

2-3

Driver is operating in single-ended

mode

Table 3. On-Board Driver Jumper

Evaluates: MAX3341E

IC Control Jumpers

The MAX3341E EV kit contains jumpers, which allow

the user to manipulate various functions on both the

master and slave (U1 and U2). Jumpers JU7 through

JU14 set the output enable, enumerate, mode, and

suspend functions on the master and slave (U1 and

U2), respectively.

Suspend Mode

Jumpers JU10 and JU14 control the suspend function on

the master and slave. See Table 6 for shunt positions.

Mode Select

Jumpers JU9 and JU13 control the mode functions on

the master and slave. See Table 7 for shunt positions.

Enumerate Jumper Settings

Jumper JU8 connects an internal 1.5kΩpullup resistor

from the master D+ line to +3.3V. Jumper JU12 con-

nects an internal 1.5kΩpullup resistor from the slave

D+ line to +3.3V. See Table 8 for shunt positions.

Output Enable Jumper Settings

The output enable jumper selects between a transmit

mode or receive mode. Jumpers JU7 and JU11 control

the output enable for the master and slave. See Table 9

for shunt positions.

16-Pin Data Connectors J1, J3

The MAX3341E EV kit contains two 16-pin headers for

interfacing with an ASIC or µC. Table 10 lists the func-

tion of each pin. Each header is identical with the

exception that J1 is connected to the master (U1) and

J3 is connected to the slave (U2). Use a 3M connector

with part number CHG-1016-001010-KEP (or equiva-

lent) to interface with this header. See the Component

Suppliers section for contact information. Inputs and

outputs are relative to the EV kit.

MAX3341E Evaluation Kit

4 _______________________________________________________________________________________

JUMPER SHUNT

POSITION DESCRIPTION

JU1, JU2 ON Master resistive load enabled

JU1, JU2 OFF Master resistive load disabled

Table 5. Resistive Load Jumper

JUMPER SHUNT

POSITION DESCRIPTION

JU10 1-2 Suspend function on master

enabled

JU10 2-3 Suspend function on master

disabled

JU14 1-2 Suspend function mode on slave

enabled

JU14 2-3 Suspend function mode on slave

disabled

Table 6. Suspend Jumper Settings

JUMPER SHUNT

POSITION DESCRIPTION

JU9 1-2 Master inputs (VPO and VMO)

differential mode

JU9 2-3 Master inputs (VPO and VMO)

single-ended mode

JU13 1-2 Slave inputs (VPO and VMO)

differential mode

JU13 2-3 Slave inputs (VPO and VMO)

single-ended mode

Table 7. Mode Select Jumper Settings

JUMPER SHUNT

POSITION DESCRIPTION

JU5 1-2 Output voltage is +1.8V

JU5 2-3 Output voltage is +3.3V

JU6 ON Power supply connected to circuit

JU6 OFF

Power supply disconnected from

circuit.

NOTE: User must supply power

through the user pads marked VUP

and GND.

Table 4. 1.8V/3.3V Power Supply Jumper

JUMPER SHUNT

POSITION DESCRIPTION

JU8 1-2 1.5kΩ resistor is connected to the

master D+ line

JU8 2-3 1.5kΩ resistor is disconnected from

the master D+ line

JU12 1-2 1.5kΩ resistor is connected to the

slave D+ line (full-speed operation)

JU12 2-3 1.5kΩ resistor is disconnected from

the slave D+ line

Table 8. Enumerate Jumper Settings

Note: The MAX3341E is not compatible with low-speed devices.

Evaluates: MAX3341E

MAX3341E Evaluation Kit

_______________________________________________________________________________________ 5

JUMPER SHUNT

POSITION DESCRIPTION

JU7 1-2 Master receive selected

JU7 2-3 Master transmit selected

JU11 1-2 Slave receive selected

JU11 2-3 Slave transmit selected

Table 9. Output Enable Jumper Settings

PIN SIGNAL I/O FUNCTION

1 SUSPEND I 0 = normal operation

1 = suspend operation

2 RCV O Receiver output (single ended)

3 VPI O Single-ended output (D+)

4 VMI O Single-ended output (D-)

5 USB_DET O

USB detect:

0 = device is not connected to the USB bus

1 = device is connected to the USB bus

6 MODE I

Mode:

0 = VPO/VMO operate as single-ended inputs

1 = VPO/VMO operate as differential inputs

7 ENUMERATE I

Enumerate:

0 = 1.5kΩ resistor disconnected from the D+ line

1 = 1.5kΩ resistor connected to the D+ line (full-speed operation)

8 VPO I Single-ended input (D+)

9 VMO I Single-ended input (D-)

10 OE I

Output enable:

0 = transmitter enabled

1 = transmitter disabled

11 VL —+1.8V/+3.3V on-board power supply

12–16 GND —Ground

Table 10. J1, J3 Data Connector

Evaluates: MAX3341E

MAX3341E Evaluation Kit

6 _______________________________________________________________________________________

MAX3341E

J1–12

J1–13

J1–1

J1–14

J1–15

J1–16

JU10

VUP

SUSP

J1–6

JU9

VUP

MODE

J1–7

JU8

VUP

ENUM

J1–11 15 VL

J1–8 2VPO

J1–9 4VMO

J1–2 1RCV

J1–3 7VPI

J1–4 8VMI

J1–5 16 USB_DET

1.0µF

J1–10

JU7

VUP

VPO

VMO

SIP–16P

J2–2

J2–1

D-M

D-

23.7Ω

J2–3

D+

GND

VTRM

23.7Ω

15kΩ

JU1

15kΩ

JU2

+5V

J2–4

1.0µF

VCC

D+M

USB A

1.0µF

Figure 1. MAX3341E EV Kit Schematic (Sheet 1 of 3)

Evaluates: MAX3341E

MAX3341E Evaluation Kit

_______________________________________________________________________________________ 7

MAX3341E

J3–12

J3–13

J3–1

J3–14

J3–15

J3–16

2B2

JU14

VUP

SUSP

J3–6

2C2

JU13

VUP

MODE

J3–7

2B3

JU12

VUP

ENUM

J3–11 D3 VL

J3–8D1 VPO

J3–9C1 VMO

J3–2D2 RCV

J3–3A1 VPI

J3–4A2 VMI

J3–5C3 USB_DET

1.0µF

J3–10

2B1

JU11

VUP

SIP–16P

J4–2

D-S

D-

23.7Ω

J4–3

D+

GND

VTRM

23.7Ω

J4–4

J4–1

+5V

C10

1.0µF

VCC

D+S

USB B

1.0µF

USB_DET

Figure 1. MAX3341E EV Kit Schematic (Sheet 2 of 3)

Evaluates: MAX3341E

MAX3341E Evaluation Kit

8 _______________________________________________________________________________________

MAX603

MAX604

VSUP

GND

20V

10V

20V

10V

4OFF

OFF

GND

OUT

GND

SET

GND

+5V

321

JU5

750k

374k

VUP

GND

VUP

JU6

+5V

GND

VCC

OUTPUT

C11

1.0

NC7SZ14

VUP

C12

1.0

C13

1.0

VPO

VMO

JU3

GND

VCC

BUFFER–DUAL–NC7WZ17

JU4

USB_DET

INVERTER–UHS–NC7SZ05

C14

1.0

VUP

+5V

N.C. VCC

GND Y

620

Figure 1. MAX3341E EV Kit Schematic (Sheet 3 of 3)

Evaluates: MAX3341E

MAX3341E Evaluation Kit

_______________________________________________________________________________________ 9

Figure 2. MAX3341E EV Kit Component Placement Guide—

Component Side

Figure 3. MAX3341E EV Kit PC Board Layout—Component Side

Evaluates: MAX3341E

MAX3341E Evaluation Kit

Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are

implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.

Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 10

Figure 4. MAX3341E EV Kit PC Board Layout—Solder Side