Max4951, Sata i/sata ii bidirectional re-driver, Detailed description – Rainbow Electronics MAX4951 User Manual

MAX4951

Detailed Description

The MAX4951 consists of two identical buffers that take
SATA input signals and return them to full output levels.
This device functions up to 6.0Gbps for next-generation
SATA applications.

Input/Output Terminations

Inputs and outputs are internally 50

Ω terminated to V

CC

(see the

Functional Diagram/Truth Table

) and must be

AC-coupled to the SATA controller IC and SATA device
for proper operation.

Out-Of-Band Logic

The MAX4951 provides full Out-Of-Band (OOB) signal
support through high-speed amplitude detection cir-
cuitry. SATA OOB differential input signals of 50mV

P-P

or less are detected as OFF and not passed to the out-
put. This prevents the system from responding to
unwanted noise. SATA OOB differential input signals of
150mV

P-P

or more are detected as ON and passed to

the output. This allows OOB signals to transmit through
the MAX4951. The time for the amplitude detection cir-
cuit to detect an inactive SATA OOB input and squelch
the associated output, or detect an active SATA OOB
input and enable the output, is less than 5ns.

Enable Input

The MAX4951 features an active-high enable input (EN).
EN has an internal pulldown resistor of 70k

Ω (typ). When

EN is driven low or left unconnected, the MAX4951
enters low-power standby mode and the buffers are dis-
abled. Drive EN high for normal operation.

Output Boost Selection Inputs

The MAX4951 has two digital control logic inputs, BA
and BB. BA and BB have internal pulldown resistors of
70k

Ω (typ). BA and BB control the boost level of their

corresponding buffers (see the

Functional Diagram/

Truth Table

). Drive BA or BB low or leave unconnected

for standard SATA output levels. Drive BA or BB high to
boost the output. The boosted output level compen-
sates for attenuation from longer trace-length cables or
to meet eSATA specifications.

Applications Information

Figure 3 shows a typical application circuit with the
MAX4951 used to drive an eSATA output. The diagram
assumes that the MAX4951 is close to the SATA host
controller. BB is set low to drive standard SATA levels
to the host, and BA is set high to drive eSATA levels to
the device. If the MAX4951 is further from the controller,
set BB high to compensate for attenuation.

SATA I/SATA II Bidirectional Re-Driver

6

_______________________________________________________________________________________

Pin Description

PIN

NAME

FUNCTION

1

HAP

Noninverting Input from Host Channel A

2

HAM

Inverting Input from Host Channel A

3, 13, 17,

18, 19

GND

Ground

4

HBM

Inverting Output to Host Channel B

5

HBP

Noninverting Output to Host Channel B

6, 10, 16,

20

V

CC

Positive Supply Voltage Input. Bypass V

CC

to GND with 0.1µF and 0.001µF capacitors in parallel and as

close to the device as possible.

7

EN

Active-High Enable Input. Drive EN low to put device in standby mode. Drive EN high for normal operation.
EN is internally pulled down.

8

BB

Channel-B Boost Enable Input. Drive BB high to enable channel-B output boost. Drive BB low for standard
SATA output level. BB is internally pulled down.

9

BA

Channel-A Boost Enable Input. Drive BA high to enable channel-A output boost. Drive BA low for standard
SATA output level. BA is internally pulled down.

11

DBP

Noninverting Input from Device Channel B

12

DBM

Inverting Input from Device Channel B

14

DAM

Inverting Output to Device Channel A

15

DAP

Noninverting Output to Device Channel A

—

EP

Exposed Pad. Internally connected to GND. EP must be electrically connected to a ground plane for proper
thermal and electrical operation.