SP3220CA SIPEX [Sipex Corporation], SP3220CA Datasheet - Page 10

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SP3220CA

Manufacturer Part Number

SP3220CA

Description

+3.0V to +5.5V RS-232 Driver/Receiver Pair

Manufacturer

SIPEX [Sipex Corporation]

Datasheet

1.SP3220CA.pdf (16 pages)

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Receivers

The receiver converts EIA/TIA-232 levels to

TTL or CMOS logic output levels. The receiver

has an inverting high-impedance output. This

receiver output (RxOUT) is at high-impedance

when the enable control EN = HIGH. In the

shutdown mode, the receiver can be active or

inactive. EN has no effect on TxOUT. The truth

table logic of the SP3220 driver and receiver

outputs can be found in Table 2.

Since receiver input is usually from a transmission

line where long cable lengths and system

interference can degrade the signal, the inputs

have a typical hysteresis margin of 300mV.

This ensures that the receiver is virtually

immune to noisy transmission lines. Should an

input be left unconnected, a 5kΩ pulldown

resistor to ground will commit the output of the

receiver to a HIGH state.

Charge Pump

The charge pump is a Sipex–patented design

(U.S. 5,306,954) and uses a unique approach

compared to older less–efficient designs. The

charge pump still requires four external

capacitors, but uses a four–phase voltage shifting

technique to attain symmetrical 5.5V power

supplies. The internal power supply consists of

a regulated dual charge pump that provides

output voltages 5.5V regardless of the input

voltage (V

Rev. 6/25/03

Table 2. Truth Table Logic for Shutdown and

Enable Control

S

H

0

0

1

1

D

N

CC

) over the +3.0V to +5.5V range.

E

0

0

1

1

N

T

T

T

A

A

i r

i r

x

s -

s -

c

c

O

v i t

v i t

a t

a t

U

e

e

SP3220 True +3.0 to +5.0V RS-232 Transceivers

T

e t

e t

T

T

R

A

A

i r

i r

x

c

s -

c

s -

O

v i t

v i t

a t

a t

U

e

e

e t

e t

T

10

In most circumstances, decoupling the power

supply can be achieved adequately using a 0.1µF

bypass capacitor at C5 (refer to Figures 5).

In applications that are sensitive to power-

supply noise, decouple V

capacitor of the same value as charge-pump

capacitor C1. Physically connect bypass

capacitors as close to the IC as possible.

The charge pumps operate in a discontinuous

mode using an internal oscillator. If the output

voltages are less than a magnitude of 5.5V, the

charge pumps are enabled. If the output voltage

exceed a magnitude of 5.5V, the charge pumps

are disabled. This oscillator controls the four

phases of the voltage shifting. A description of

each phase follows.

Phase 1

— V

the clock cycle, the positive side of capacitors

C

switched to GND and the charge in C

transferred to C

the voltage potential across capacitor C

2 times V

Phase 2

— V

connects the negative terminal of C

storage capacitor and the positive terminal of C

to GND. This transfers a negative generated

voltage to C

regulated to a minimum voltage of -5.5V.

Simultaneous with the transfer of the voltage to

C

to V

Phase 3

— V

clock is identical to the first phase — the charge

transferred in C

terminal of C

side of capacitor C

voltage potential across C

1

3

, the positive side of capacitor C

and C

CC

DD

SS

SS

and the negative side is connected to GND.

charge storage — During this phase of

charge storage — The third phase of the

2

transfer — Phase two of the clock

are initially charged to V

CC

.

1

, which is applied to the negative

3

2

. This generated voltage is

1

–

. Since C

produces –V

2

. Since C

© Copyright 2003 Sipex Corporation

2

2

+

CC

is connected to V

is 2 times V

to ground with a

CC

2

+

in the negative

is at V

CC

1

. C

is switched

2

to the V

l

2

+

CC

is then

is now

CC

.

, the

1

–

CC

is

SS

2

,

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