ISP1760BE,557 NXP Semiconductors, ISP1760BE,557 Datasheet - Page 26
ISP1760BE,557
Manufacturer Part Number
ISP1760BE,557
Description
Manufacturer
NXP Semiconductors
Datasheet
1.ISP1760BE557.pdf
(111 pages)
Specifications of ISP1760BE,557
Package Type
LQFP
Pin Count
128
Lead Free Status / RoHS Status
Compliant
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NXP Semiconductors
ISP1760_4
Product data sheet
7.7 Overcurrent detection
The ISP1760 can implement a digital or analog overcurrent detection scheme. Bit 15 of
the HW Mode Control register can be programmed to select the analog or digital
overcurrent detection. An analog overcurrent detection circuit is integrated on-chip. The
main features of this circuit are self reporting, automatic resetting, low-trip time and low
cost. This circuit offers an easy solution at no extra hardware cost on the board. The port
power will automatically be disabled by the ISP1760 on an overcurrent event occurrence,
by de-asserting the PSWn_N signal without any software intervention.
When using the integrated analog overcurrent detection, the range of the overcurrent
detection voltage for the ISP1760 is 45 mV to 100 mV. Calculation of external components
should be based on the 45 mV value, with the actual overcurrent detection threshold
usually positioned in the middle of the interval.
For an overcurrent limit of 500 mA per port, a PMOS with R
is required. If a PMOS with a lower R
adjusted using a series resistor; see
The digital overcurrent scheme requires using an external power switch with integrated
overcurrent detection, such as LM3526, MIC2526 (2 ports) or LM3544 (4 ports). These
devices are controlled by PSWn_N signals corresponding to each port. In the case of
overcurrent occurrence, these devices will assert OCn_N signals. On OCn_N assertion,
the ISP1760 cuts off the port power by de-asserting PSWn_N. The external integrated
power switch will also automatically cut off the port power in the case of an overcurrent
event, by implementing thermal shutdown. An internal delay filter will prevent false
overcurrent reporting because of in-rush currents when plugging a USB device. Because
of this internal delay, as soon as OCn_N is asserted, PSWn_N will switch off the external
PMOS in less than 15 ms.
Fig 7.
V
I
OC(nom)
PMOS
V
PMOS
(1) R
= V
Adjusting analog overcurrent detection limit (optional)
= 1 A
= voltage drop on PMOS
adj(oc)
trip(OC)
is optional.
= V
Rev. 04 — 4 February 2008
trip(int)
5 V
REF5V
(I
OC(nom)
Figure
DSon
ISP1760
is used, analog overcurrent detection can be
R
7.
adj(oc)
Embedded Hi-Speed USB host controller
PSWn_N
), where:
OCn_N
004aaa662
R adj(oc) (1)
DSon
I OC
of approximately 100 m
© NXP B.V. 2008. All rights reserved.
ISP1760
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