NBA3N206SDR2G Datasheet NBA3N206SDR2G, NBA3N206SDG | P4-P6

NBA3N206S

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Table 5. DC CHARACTERISTICS VCC = 3.3 ±10% V( 3.0 to 3.6 V), GND = 0 V, T

= −40°C to +125°C (See Notes 4, 5)

Symbol

Characteristic Min Typ Max Unit

ICC Power Supply Current

Receiver Disabled Driver Enabled RE

and DE at V

, R

= 50 W, All others open

Driver and Receiver Disabled RE at VCC, DE at 0 V, R

= No Load, All others open

Driver and Receiver Enabled RE at 0 V, DE at V

, R

= 50 W, All others open

Receiver Enabled Driver Disabled RE at 0 V, DE at 0 V, R

= 50 W, All others open

Input HIGH Voltage 2 V

Input LOW Voltage GND 0.8 V

VBUS Voltage at any bus terminal VA, VB, VY or VZ −1.4 3.8 V

|VID| Magnitude of differential input voltage 0.05 V

DRIVER

| Differential output voltage magnitude (see Figure 4) 440 690 mV

D|V

Change in Differential output voltage magnitude between logic states (see Figure 4) −50 50 mV

OS(SS)

Steady state common mode output voltage (see Figure 5) 0.8 1.2 V

OS(SS)

Change in Steady state common mode output voltage between logic states (see

Figure 5)

−50 50 mV

OS(PP)

Peak−to−peak common−mode output voltage (see Figure 5) 150 mV

AOC

Maximum steady−state open−circuit output voltage (see Figure 9) 0 2.4 V

BOC

Maximum steady−state open−circuit output voltage (see Figure 9) 0 2.4 V

P(H)

Voltage overshoot, low−to−high level output (see Figure 7) 1.2 V

P(L)

Voltage overshoot, high−to−low level output (see Figure 7) −0.2 V

High−level input current (D, DE) V

= 2 V 0 10 uA

Low−level input current (D, DE) V

= 0.8 V 0 10 uA

J Differential short−circuit output current magnitude (see Figure 6) 24 mA

High−impedance state output current (driver only)

−1.4 V ≤ (VA or VB) ≤ 3.8 V, other output at 1.2 V

−15 10 uA

O(OFF)

Power−off output current (0 V ≤ V

≤ 1.5 V)

−1.4 V ≤ (VA or VB) ≤ 3.8 V, other output at 1.2 V

−10 10 uA

RECEIVER

IT+

Positive−going Differential Input voltage Threshold (See Figure 11 & Table 8)

Type 2

150

IT−

Negative−going Differential Input voltage Threshold (See Figure 11 & Table 8)

Type 2

HYS

Differential Input Voltage Hysteresis (See Figure 11 and Table 2)

Type 2

VOH High−level output voltage (IOH = –8 mA 2.4 V

VOL Low−level output voltage (IOL = 8 mA) 0.4 V

RE High-level input current (VIH = 2 V)

−10 0

RE Low-level input current (VIL = 0.8 V)

−10 0

High−impedance state output current (VO = 0 V of 3.6 V) −10 15

/ C

Input Capacitance VI = 0.4 sin(30E

πt) + 0.5 V, other outputs at 1.2 V using HP4194A

impedance analyzer (or equivalent)

3 pF

Differential Input Capacitance VAB = 0.4 sin(30E

πt) V, other outputs at 1.2 V using

HP4194A impedance analyzer (or equivalent)

2.5 pF

A/B

Input Capacitance Balance, (CA/CB) 99 101 %

NBA3N206S

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Table 5. DC CHARACTERISTICS VCC = 3.3 ±10% V( 3.0 to 3.6 V), GND = 0 V, T

= −40°C to +125°C (See Notes 4, 5)

Symbol

Characteristic Min

Typ

(Note

Max Unit

BUS INPUT AND OUTPUT

Input Current Receiver or Transceiver with Driver Disabled

= 3.8 V, V

= 1.2 V

= 0.0 V or 2.4 V, V

= 1.2 V

= −1.4 V, V

= 1.2 V

−20

−32

Input Current Receiver or Transceiver with Driver Disabled

= 3.8 V, V

= 1.2 V

= 0.0 V or 2.4 V, V

= 1.2 V

= −1.4 V, V

= 1.2 V

−20

−32

Differential Input Current Receiver or Transceiver with driver disabled (I

−I

)

= V

, −1.4 ≤ V

≤ 3.8 V −4 4

A(OFF)

Input Current Receiver or Transceiver Power Off 0V ≤ V

≤ 1.5 and:

= 3.8 V, V

= 1.2 V

= 0.0 V or 2.4 V, V

= 1.2 V

= −1.4 V, V

= 1.2 V

−20

−32

B(OFF)

Input Current Receiver or Transceiver Power Off 0V ≤ V

≤ 1.5 and:

= 3.8 V, V

= 1.2 V

= 0.0 V or 2.4 V, V

= 1.2 V

= −1.4 V, V

= 1.2 V

−20

−32

AB(OFF)

Receiver Input or Transceiver Input/Output Power Off Differential Input Current; (I

−I

)

= V

, 0 ≤ V

≤ 1.5 V, −1.4 ≤ V

≤ 3.8 V −4 4

Transceiver Input Capacitance with Driver Disabled VA = 0.4 sin(30E

πt) + 0.5 V using

HP4194A impedance analyzer (or equivalent); V

= 1.2 V

5 pF

Transceiver Input Capacitance with Driver Disabled VB = 0.4 sin(30E

πt) + 0.5 V using

HP4194A impedance analyzer (or equivalent); V

= 1.2 V

5 pF

Transceiver Differential Input Capacitance with Driver Disabled VA = 0.4 sin(30E

pt) +

0.5 V using HP4194A impedance analyzer (or equivalent);

= 1.2 V

3.0 pF

A/B

Transceiver Input Capacitance Balance with Driver Disabled, (CA/CB) 99 101 %

NOTE: Device will meet the specifications after thermal equilibrium has been established when mounted in a test socket or printed circuit

board with maintained transverse airflow greater than 500 lfpm.

3. See Figure 3. DC Measurements reference.

4. Typ value at 25°C and 3.3 VCC supply voltage.

Table 6. DRIVER AC CHARACTERISTICS VCC = 3.3 ±10% V( 3.0 to 3.6 V), GND = 0 V, T

= −40°C to +125°C (Note 5)

Symbol

Characteristic Min Typ Max Unit

PLH

/ t

PHL

Propagation Delay (See Figure 7) 1.0 1.5 2.4 ns

PHZ

/ t

PLZ

Disable Time HIGH or LOW state to High Impedance (See Figure 8) 7 ns

PZH

/ t

PZL

Enable Time High Impedance to HIGH or LOW state (See Figure 8) 7 ns

SK(P)

Pulse Skew (|t

PLH

− t

PHL

|) (See Figure 7) 0 150 ps

SK(PP)

Device to Device Skew similar path and conditions (See Figure 7) 1 ns

JIT(PER)

Period Jitter RMS, 100 MHz (Source tr/tf 0.5 ns, 10 and 90 % points, 30k sam-

ples. Source jitter de−embedded from Output values ) (See Figure 10)

2 3.5 ps

JIT(PP)

Peak−to−peak Jitter, 200 Mbps 2

−1 PRBS (Source tr/tf 0.5 ns, 10 and 90%

points, 100k samples. Source jitter de−embedded from Output values) (See

Figure 10)

30 150 ps

tr / tf Differential Output rise and fall times (See Figure 7) 0.9 1.6 ns

NOTE: Device will meet the specifications after thermal equilibrium has been established when mounted in a test socket or printed circuit

board with maintained transverse airflow greater than 500 lfpm.

5. Typ value at 25°C and 3.3 V

supply voltage.

NBA3N206S

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Table 7. RECEIVER AC CHARACTERISTICS VCC = 3.3 ±10% V( 3.0 to 3.6 V), GND = 0 V, T

= −40°C to +125°C (Note 6)

Symbol

Characteristic Min Typ Max Unit

PLH

/ t

PHL

Propagation Delay (See Figure 12) 2 4 6 ns

PHZ

/ t

PLZ

Disable Time HIGH or LOW state to High Impedance (See Figure 13) 10 ns

PZH

/ t

PZL

Enable Time High Impedance to HIGH or LOW state (See Figure 13) 18 ns

SK(P)

Pulse Skew (|t

PLH

− t

PHL

|) (See Figure 14) C

= 5 pF

Type 2

300 500

SK(PP)

Device to Device Skew similar path and conditions (See Figure 12) C

= 5 pF 1 ns

JIT(PER)

Period Jitter RMS, 100 MHz (Source: VID = 200 mV

, VID = 400 mV

, V

=1 V, tr/tf

0.5 ns, 10 and 90 % points, 30k samples. Source jitter de−embedded from Output val-

ues ) (See Figure 14)

4 8 ps

JIT(PP)

Peak−to−peak Jitter, 200 Mbps 2

−1 PRBS (Source tr/tf 0.5 ns, 10% and 90% points,

100k samples. Source jitter de−embedded from Output values) (See Figure 14)

Type 2

450 900

tr / tf Differential Output rise and fall times (See Figure 14) C

= 15 pF 1 2.3 ns

6. Typ value at 25°C and 3.3 VCC supply voltage. .

Figure 3. Driver Voltage and Current Definitions

A. All resistors are 1% tolerance.

Figure 4. Differential Output Voltage Test Circuit

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18

NBA3N206SDR2G

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Clock Buffer MLVDS DRIVER RECEIVE

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NBA3N206SDR2G

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