L3037FNTR STMicroelectronics, L3037FNTR Datasheet - Page 10

L3037FNTR

Manufacturer Part Number

L3037FNTR

Description

Manufacturer

STMicroelectronics

Datasheet

1.L3037FNTR.pdf (22 pages)

Specifications of L3037FNTR

Number Of Channels

On-hook Transmission

Yes

Polarity Reversal

Yes

On-chip Ring Relay Driver

Yes

Longitudinal Balanced

Operating Temp Range

-40C to 85C

Package Type

PLCC

Operating Temperature Classification

Industrial

Pin Count

Mounting

Surface Mount

Lead Free Status / RoHS Status

Supplier Unconfirmed

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L3037

In case of U.S. application based on L3035 the

external components can be calculated suppo-

sing:

- Rfeed = 400

EXTERNAL COMPONENTS (for US. Application)

Notes:

(1) These components can be removed and ZB pin shorted to GND when 2/4wire conversion is implemented with 2nd generation COMBO (EG.

(2) In case there is no necessity to recover the unbalance introduced by PTC tolerance pins TIP and STIP can be shorted togheter as pins

(3) Loaded Line.

(4) Not Loaded Line.

(5) Transistor characteristic: P

(6) V

(7) For details see AN496.

(8) RST and RSR wattage should be calculated according to the power cross test specification. (When PTC become open circuit the entire

(9) In order to optimize the component count it is also possible to use only one resistor in series to the ringing generator. In this case RT = 0 ;

(10) Suggested Rp type are 2W wire wound resistors or thick film resistors on ceramic substrate.

(*) ex: BD140; MJE172;MJE350....(SOT32 or SOT82 package available also for surface mount).

10/22

CCOMP

RSR (2)

PTC (2)

RST (2)

CVDD

RA (1)

CH (1)

Name

CVSS

RREF

CSVR

ZA (1)

ZB (1)

QEXT

RDC

RRG

CRG

CAC

TS5070FN)

RING and SRING. In this case also the R

protection connection. In this case PTC or fuse resistor (if used) can be placed in series to Rp.

T = 2.5ms.

power cross voltage will appear across RSR and RST).

RF 400

CVB

CRT

ZAC

RING

Fuse function should be included if PTC are not used.

For low power application (reduced battery voltage) BCP53 (SOT223 surface mount package) can be used.

: Max Ring Generator Voltage, f

Battery Filter

Positive Supply Filter

Negative Supply Filter

Internal Current Reference

Battery Ripple Rejection

Ring Trip & Ground-key Capacitor

DC Feeding Resistance

AC/DC Splitter

Protection Resistor Image

2 Wire AC Impedance

SLIC Impedance Balancing Network

Line Impedance Balancing Network

AC Feedback Compensation

Trans-hybrid Loss Freq. Comp.

Feeding Resistance for Ring Inj.

Ring Input Resistor

Ring Input Capacitor

Positive Temp. Coeff. Resistor

Tip Buffer Sensing Resistor

Ring Buffer Sensing Resistor

External Transistor (5)

Protection Resistor

Relay Kickback Clamp Diode

(RF typ. value = 400 ).

DISS

Function

= 1W (typ. depending on application); h

RING

: Ring Frequency, T: relay response time. Typical value obtained for V

Resistor should be splitted in two parts keeping at least 20

CSVR = 1/(6.28 * fp * 150K)

@ fp = 1.6Hz

CRT = (25/f

RDC = 10 * (Rfeed - 2Rp)

CAC = 1 / (6.28 * fsp * RDC)

@ fsp = 10Hz

RS = 50 * 2RP

ZAC = 50 * (Zs-2Rp)

ZA = 50 * (Zs-2Rp)

RA = 50 * 2Rp

ZB = 50 * Zl

CCOMP = 1 / [2 fo (100 Rp)]

CH = CCOMP

RRG = (V

180] (6)

CRG = 25 A/(V

180] 2 f

< 15

10 to 50K

30 to 80

200

(9)

- Zs = 900 + 2.12 F

- Zl = 1650 // (100 + 5nF) Loaded Line

- Zl = 800 // (100 + 50nF) Not Loaded Line

- Rp = 62

RING

@ fo = 250KHz

RING

(10)

25; I

/25 A)cos[-2 f

Formula

) 390nF

(6)

RING

100mA; V

sin[2 f

(7)

RING

CEO

RING

60V; f

between TIP/RING terminals and

82.5K + (5K + 100pF) (3)

15MHz.

RING

40K + (5K + 1nF) (4)

3.9nF 20%

39K + (180K//55nF)

330nF 20% 63VI

390nF 20% 6VI

33K 1W 5%(8)

= 100Vrms, f

100nF 20%

100pF 20%

Typ. Value

20% 15VI

200

23.7K 1%

20% 60VI

2.76K 1%

6.2K 1%

1N4148

100pF

680nF

4.7 F

20%

(*)

RING

100V

= 25Hz;

L3037FNTR STMicroelectronics, L3037FNTR Datasheet - Page 10

L3037FNTR

Specifications of L3037FNTR

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