Detailed description, Pin description – Rainbow Electronics MAX3345E User Manual

MAX3344E/MAX3345E

Detailed Description

The MAX3344E/MAX3345E are bidirectional transceivers
that convert single-ended or differential logic-level signals
to differential USB signals, and convert differential USB
signals to single-ended or differential logic-level signals.
The MAX3344E/MAX3345E are operational from V

CC

=

5.5V to V

CC

= 3V (electrical specifications are not guaran-

teed for V

CC

< 4V). Both devices include an internal

1.5kΩ pullup resistor that connects and disconnects D+
to VTRM (see the Functional Diagram).

The MAX3344E/MAX3345E are tolerant to power seq-
uencing with either V

CC

> V

L

or V

L

> V

CC

. Additionally,

the USB I/O, D+ and D-, and V

CC

are ESD protected to

±15kV. The MAX3344E/MAX3345E can receive USB
power (V

CC

) directly from the USB connection and

operate with logic supplies (V

L

) down to 1.65V, while

still meeting the USB physical layer specifications. The
MAX3344E/MAX3345E support full-speed (12Mbps)
USB specification 2.0 operation.

The MAX3344E/MAX3345E have an enumerate feature
that functions when power is applied. Driving ENUM low
disconnects the internal 1.5kΩ pullup resistor from D+
enumerating the USB. This is useful if changes in commu-
nication protocol are required while power is applied, and
while the USB cable is connected.

±15kV ESD-Protected USB Transceivers
in UCSP with USB Detect

6

_______________________________________________________________________________________

Pin Description

PIN

TSSOP

UCSP

NAME

IN PU T /

O U T PU T

FUNCTION

1

D2

RCV

Output

Receiver Output. Single-ended CMOS output. RCV responds to the differential input
on D+ and D-.

2

D1

VPO

Input

Logic-Level Data Input. VPO is level translated to D+.

3

C2

MODE

Input

Mode-Control Input. Selects differential (mode 1) or single-ended (mode 0) input for
the system side when converting logic-level signals to USB level signals. Force
MODE high to select mode 1. Force MODE low to select mode 0.

4

C1

VMO

Input

Logic-Level Data Input. VMO is level translated to D-.

5

B1

OE

Input

Output Enable. Drive

OE low to enable data transmission on D+ and D-. Drive OE

high to disable data transmission or to receive data.

6

B2

SUSP

Input

Suspend Input. Drive SUSP low for normal operation. Drive SUSP high for low-power
state. In low-power state, RCV is low and VPI/VMI are active.

7

A1

VPI

Output

Logic-Level Data Output. VPI is the level-translated value of D+.

8

A2

VMI

Output

Logic-Level Data Output. VMI is the level-translated value of D-.

9

B3

ENUM

Input

Enumerate. Drive ENUM high to connect the internal 1.5kΩ resistor from D+ to 3.3V.
Drive ENUM low to disconnect the internal 1.5kΩ resistor.

10

A3

V

CC

Power

USB-Side Power-Supply Input. Connect V

CC

to the incoming USB power supply.

Bypass V

CC

to GND with a 1µF ceramic capacitor.

11

A4

GND

Power

Ground

12

B4

D-

Input/

Output

Negative USB Differential Data Input/Output. Connect to the USB’s D- signal through
a 23.7Ω

±

1% resistor.

13

C4

D+

Input/

Output

Positive USB Differential Data Input/Output. Connect to the USB’s D+ signal through
a 23.7Ω

±

1% resistor.

14

D4

VTRM

Power

Reg ul ated Outp ut V ol tag e. V TRM p r ovi d es a 3.3V outp ut d er i ved fr om V

C C

. Byp ass

V TRM to G N D w i th a 1µF ( m i n) l ow - E S R cap aci tor , such as cer am i c or p l asti c fi l m typ es.

15

D3

V

L

Power

S ystem - S i d e P ow er - S up p l y Inp ut. C onnect to the system ’ s l og i c- l evel p ow er sup p l y,
1.65V to 3.6V .

16

C3

USB_DET

Output

USB Detector Output. A high at USB_DET signals to the ASIC that V

CC

is present. A

low at USB_DET indicates that V

CC

is not present. The MAX3344E USB_DET

threshold is between 3.6V (min) and 4V (max), while the MAX3345E USB_DET
threshold is between 1V (min) and 2.8V (max).