LTC2844IG#TRPBF Datasheet LTC2844CG#PBF, LTC2844IG#PBF, LTC2844CG#TRPBF | P4-P6

LTC2844

sn2844 2844fs

The ● denotes specifications which apply over the full operating tempera-

ture range, otherwise specifications are at T

= 25°C. V

= 5V, V

= 3.3V, V

= 8V, V

= – 7V for V.28, –5.5V for V.10, V.11

(Notes 2, 3)

ELECTRICAL CHARACTERISTICS

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

PHL

Input to Output LTC2844C C

= 50pF (Figures 2, 6) ● 50 80 ns

LTC2844I C

= 50pF (Figures 2, 6) ● 50 90 ns

∆t Input to Output Difference, t

PLH

– t

PHL

 LTC2844C C

= 50pF (Figures 2, 6) ● 0416ns

LTC2844I C

= 50pF (Figures 2, 6) ● 0421ns

V.10 Driver

Output Voltage Open Circuit, R

= 3.9k ● ±4 ±6V

Output Voltage R

= 450Ω (Figure 3) ● ±3.6 V

= 450Ω (Figure 3) 0.9V

Short-Circuit Current V

= GND ±150 mA

Output Leakage Current –0.25V ≤ V

≤ 0.25V, Power Off or ● ±0.1 ±100 µA

No-Cable Mode or Driver Disabled

, t

Rise or Fall Time R

= 450Ω, C

= 100pF (Figures 3, 7) 2 µs

PLH

Input to Output R

= 450Ω, C

= 100pF (Figures 3, 7) 1 µs

PHL

Input to Output R

= 450Ω, C

= 100pF (Figures 3, 7) 1 µs

V.10 Receiver

Receiver Input Threshold Voltage ● –0.25 0.25 V

∆V

Receiver Input Hysteresis ● 25 50 mV

Receiver Input Current –10V ≤ V

≤ 10V ● ±0.66 mA

Receiver Input Impedance –10V ≤ V

≤ 10V ● 15 30 kΩ

, t

Rise or Fall Time C

= 50pF (Figures 4, 8) 15 ns

PLH

Input to Output C

= 50pF (Figures 4, 8) 55 ns

PHL

Input to Output C

= 50pF (Figures 4, 8) 109 ns

∆t Input to Output Difference, t

PLH

– t

PHL

 C

= 50pF (Figures 4, 8) 60 ns

V.28 Driver

Output Voltage Open Circuit ● ±10 V

= 3k (Figure 3) ● ±5 ±8.5 V

Short-Circuit Current V

= GND ● ±150 mA

Output Leakage Current –0.25V ≤ V

≤ 0.25V, Power Off or ● ±1 ±100 µA

No-Cable Mode or Driver Disabled

SR Slew Rate R

= 3k, C

= 2500pF (Figures 3, 7) ● 430V/µs

PLH

Input to Output R

= 3k, C

= 2500pF (Figures 3, 7) ● 1.3 2.5 µs

PHL

Input to Output R

= 3k, C

= 2500pF (Figures 3, 7) ● 1.3 2.5 µs

V.28 Receiver

THL

Input Low Threshold Voltage ● 0.8 V

TLH

Input High Threshold Voltage ● 2V

∆V

Receiver Input Hysterisis ● 0.1 0.3 V

Receiver Input Impedance –15V ≤ V

≤ 15V ● 357kΩ

, t

Rise or Fall Time C

= 50pF (Figures 4, 8) 15 ns

PLH

Input to Output C

= 50pF (Figures 4, 8) ● 60 100 ns

PHL

Input to Output C

= 50pF (Figures 4, 8) ● 150 500 ns

LTC2844

sn2844 2844fs

DATA RATE (kBd)

(mA)

125

120

115

110

105

100

2844 G01

10 100 1000 10000

DATA RATE (kBd)

(mA)

30 100

2844 G02

20 40 50 60 70 80 10 30 10020 40 50 60 70 80

DATA RATE (kBd)

(mA)

2844 G03

TEMPERATURE (°C)

–40

(mA)

105

100

20 60

2844 G04

–20 0 40 80 100 –40 20 60–20 0 40 80 100 –40 20 60–20 0 40 80 100

TEMPERATURE (°C)

(mA)

2844 G05

23.5

25.4

25.3

25.2

25.1

25.0

24.9

24.8

24.7

24.6

24.5

TEMPERATURE (°C)

(mA)

2844 G06

8.20

8.15

8.10

8.05

8.00

7.95

7.90

7.85

7.80

= 25°C T

= 25°C

Note 1: Absolute Maximum Ratings are those values beyond which the life

of a device may be impaired.

Note 2: All currents into device pins are positive; all currents out of device

are negative. All voltages are referenced to device ground unless otherwise

specified.

Note 3: All typicals are given for V

= 5V, V

= 3.3V, V

= 8V, V

= –7V

for V.28, –5.5V for V.10, V.11 and T

= 25°C.

ELECTRICAL CHARACTERISTICS

TYPICAL PERFOR A CE CHARACTERISTICS

RS530, X.21 in DCE Mode

(Three V.11 Drivers with Full

Load) I

vs Data Rate

V.28 in DCE Mode

(Three V.28 Drivers with Full

Load) I

vs Data Rate

RS530-A in DTE Mode

(Two V.10 Drivers with Full Load)

vs Data Rate

RS530, X.21 in DCE Mode

(Three V.11 Drivers with Full

Load) I

vs Temperature

V.28 in DCE Mode

(Three V.28 Drivers with Full

Load) I

vs Temperature

RS530-A in DTE Mode

(Two V.10 Drivers with Full Load)

vs Temperature

LTC2844

sn2844 2844fs

PI FU CTIO S

(Pin 1): Positive Supply for the Transceivers. Connect

to V

Pin 8 on LTC2846 or to 5V supply. Connect a 1µF

capacitor to ground.

(Pin 2): Positive Supply Voltage for V.28. Connect to

Pin 7 on LTC2846 or 8V supply. Connect a 1µF

capacitor to ground.

D1 (Pin 3): TTL Level Driver 1 Input.

D2 (Pin 4): TTL Level Driver 2 Input.

D3 (Pin 5): TTL Level Driver 3 Input.

R1 (Pin 6): CMOS Level Receiver 1 Output. Receiver

outputs have a weak pull up to V

when high impedance.

R2 (Pin 7): CMOS Level Receiver 2 Output.

R3 (Pin 8): CMOS Level Receiver 3 Output.

D4 (Pin 9): TTL Level Driver 4 Input.

R4 (Pin 10): CMOS Level Receiver 4 Output.

M0 (Pin 11): TTL Level Mode Select Input 0. Mode select

inputs pull up to V

M1 (Pin 12): TTL Level Mode Select Input 1.

M2 (Pin 13): TTL Level Mode Select Input 2.

DCE/DTE (Pin 14): TTL Level Mode Select Input.

(Pin 15): Positive Supply for the Receiver Outputs.

3V ≤ V

≤ 3.6V. Connect a 1µF capacitor to ground.

D4/R4 A (Pin 16): Receiver 4 Inverting Input and Driver 4

Inverting Output.

R3 B (Pin 17): Receiver 3 Noninverting Input.

R3 A (Pin 18): Receiver 3 Inverting Input.

R2 B (Pin 19): Receiver 2 Noninverting Input.

R2 A (Pin 20): Receiver 2 Inverting Input.

D3/R1 B (Pin 21): Receiver 1 Noninverting Input and

Driver 3 Noninverting Output.

D3/R1 A (Pin 22): Receiver 1 Inverting Input and Driver 3

Inverting Output.

D2 B (Pin 23): Driver 2 Noninverting Output.

D2 A (Pin 24): Driver 2 Inverting Output.

D1 B (Pin 25): Driver 1 Noninverting Output.

D1 A (Pin 26): Driver 1 Inverting Output.

GND (Pin 27): Ground.

(Pin 28): Negative Supply Voltage. Connect to V

Pin␣ 31 on LTC2846 or to –7V supply. Connect a 1µF

capacitor to ground.

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P20

LTC2844IG#TRPBF

Mfr. #:

Buy LTC2844IG#TRPBF

Manufacturer:

Analog Devices Inc.

Description:

RS-232 Interface IC 3.3V Sftwr-Sel Multiprotocol Tran

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LTC2844IG#TRPBF

LTC2844IG#TRPBF

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