IC-GF Datasheet, PDF(14/26 Page) IC-Haus GmbH

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IC-GF Datasheet, PDF (14/26 Pages) IC-Haus GmbH – TRANSCEIVER

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iC-GF

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Rev C1, Page 14/26

is not critical; high current can also be tolerated for

a short period and with low repeat rates. This is

particularly important when switching capacitive loads

(charge/discharge currents).

VBR

NUVD

NOVL

OEN

Qyx

tuvcl

toldly

toldcl

Figure 6: Permanent short circuit

VCC and VCC3. Both undervoltage detectors are ï¬l-

tered against spurious events smaller than 25 Âµs (cf.

Electrical Characteristics No. 404). In case of a valid

undervoltage event (longer than 25 Âµs) both QPx and

QNx are unconditionally brought to high impedance for

at least 35 ms (cf. Electrical Characteristics No. 405)

resp. as long as the duration of the undervoltage situ-

ation.

Digital ï¬ltering at inputs

To obtain high noise immunity the pins QCFGx,

INV1/ESPI, IN1/TX, IN2, OEN, CFI and CFP have a

digital input ï¬lter. Figure 5 shows this ï¬lter time ttrig for

INx (cf. Electrical Characteristics Nos. 613 to 616 and

816 to 819).

VBR

NUVD

NOVL

OEN

INx

Qyx

Off

Integrator

tuvcl

toldcl

Figure 7: Overload

So that this is possible a shared back-end integrator

follows the switches for the purpose of overload detec-

tion. This integrator is an 8-bit counter which is up-

dated together with the oscillator clock. If an overload

is detected on one channel the counter is incremented

by 1; an overload on both channels increments the

counter by 2. If no overload is apparent the counter is

decremented by 1 every 10 clock pulses. A maximum

duty cycle â without deactivation of the switches â of

1:10 results if one channel is overloaded. Only when

this ratio is exceeded the counter can reach its maxi-

mum value, generating an error message at NOVL and

deactivating the switches.

Undervoltage detection

iC-GF features two separate undervoltage detectors:

voltage monitoring at VBO and voltage monitoring at

Feedback channel CFIâCFO

iC-GF implements a feedback channel which permits

a communication from the line side to the sensor side.

High voltage digital signals at CFI are converted into

low voltage (open-collector) levels at CFO.

Spread spectrum oscillator

To reduce the electromagnetic interference generated

by the switching converter (pin VHL) a spread spec-

trum oscillator has been introduced. Here the switch

is not triggered by a ï¬xed frequency but by a varying

32 step frequency mix. Generated interference is then

distributed across the frequency spectrum with its am-

plitude reduced at the same time.

Conï¬guration mode

Leaving pin INV1 unconnected (cf. Table 1) selects SPI

mode for conï¬guration. All functions implemented in

DEFAULT mode are also available in SPI mode plus

some additional functions, available in SPI mode only.

Mode Select

INV1 MODE

L DEFAULT

H DEFAULT

SPI

Table 1: Operating mode conï¬guration

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