EVAL-ADN469XEHDEBZ Просмотр технического описания (PDF) - Analog Devices

Номер в каталоге

Компоненты Описание

производитель

EVAL-ADN469XEHDEBZ

3.3 V, 100 Mbps, Half- and Full-Duplex, High Speed M-LVDS Transceivers

Analog Devices 

Data Sheet

ADN4690E/ADN4692E/ADN4694E/ADN4695E

SPECIFICATIONS

VCC = 3.0 V to 3.6 V; RL = 50 Ω; TA = TMIN to TMAX, unless otherwise noted.1

Table 2.

Parameter

DRIVER

Differential Outputs

Differential Output Voltage Magnitude

∆|VOD| for Complementary Output States

Common-Mode Output Voltage (Steady State)

ΔVOC(SS) for Complementary Output States

Peak-to-Peak VOC

Maximum Steady-State Open-Circuit Output

Voltage

Voltage Overshoot

Low to High

High to Low

Output Current

Short Circuit

High Impedance State, Driver Only

Symbol Min

Typ

|VOD|

∆|VOD|

VOC(SS)

ΔVOC(SS)

VOC(PP)

VA(O), VB(O),

VY(O), or VZ(O)

480

−50

0.8

−50

0

VPH

VPL

−0.2VSS

|IOS|

IOZ

−15

Power Off

IO(OFF)

−10

Output Capacitance

CY or CZ

3

Differential Output Capacitance

Output Capacitance Balance (CY/CZ)

Logic Inputs (DI, DE)

Input High Voltage

Input Low Voltage

Input High Current

Input Low Current

RECEIVER

Differential Inputs

Differential Input Threshold Voltage

Type 1 Receiver (ADN4690E, ADN4692E)

Type 2 Receiver (ADN4694E, ADN4695E)

Input Hysteresis

Type 1 Receiver (ADN4690E, ADN4692E)

Type 2 Receiver (ADN4694E, ADN4695E)

Differential Input Voltage Magnitude

Input Capacitance

CYZ

CY/Z

0.99

VIH

2

VIL

GND

IIH

0

IIL

0

VTH

−50

VTH

50

VHYS

25

VHYS

0

|VID|

0.05

CA or CB

3

Differential Input Capacitance

Input Capacitance Balance (CA/CB)

Logic Output RO

Output High Voltage

Output Low Voltage

High Impedance Output Current

Logic Input RE

Input High Voltage

Input Low Voltage

Input High Current

Input Low Current

CAB

CA/B

0.99

VOH

2.4

VOL

IOZ

−10

VIH

2

VIL

GND

IIH

−10

IIL

−10

Rev. B | Page 3 of 20

Max Unit Test Conditions/Comments

650 mV See Figure 18

+50 mV See Figure 18

1.2

V

See Figure 19, Figure 22

+50 mV See Figure 19, Figure 22

150 mV See Figure 19, Figure 22

2.4

V

See Figure 20

1.2VSS V

V

See Figure 23, Figure 26

See Figure 23, Figure 26

24

mA See Figure 21

+10 µA –1.4 V ≤ (VY or VZ) ≤ 3.8 V,

other output = 1.2 V

+10 µA –1.4 V ≤ (VY or VZ) ≤ 3.8 V,

other output = 1.2 V, 0 V ≤ VCC ≤ 1.5 V

pF VI = 0.4 sin(30e6πt) V + 0.5 V,2

other output = 1.2 V, DE = 0 V

2.5

pF VAB = 0.4 sin(30e6πt) V,2 DE = 0 V

1.01

VCC

V

0.8

V

10

µA VIH = 2 V to VCC

10

µA VIL = GND to 0.8 V

+50 mV See Table 3, Figure 35

150 mV See Table 4, Figure 35

mV

mV

VCC

V

pF VI = 0.4 sin(30e6πt) V + 0.5 V,2

other input = 1.2 V

2.5

pF VAB = 0.4 sin(30e6πt) V2

1.01

V

IOH = –8 mA

0.4

V

IOL = 8 mA

+15 µA VO = 0 V or 3.6 V

VCC

V

0.8

V

0

µA VIH = 2 V to VCC

0

µA VIL = GND to 0.8 V

Share Link: