參數(shù)資料
型號(hào): EVAL-AD5750EBZ
廠商: Analog Devices Inc
文件頁(yè)數(shù): 25/36頁(yè)
文件大?。?/td> 0K
描述: BOARD EVAL FOR AD5750
標(biāo)準(zhǔn)包裝: 1
主要目的: 電源管理,專用:電流/電壓輸出驅(qū)動(dòng)器
已用 IC / 零件: AD5750
主要屬性: 電流(±20mA)或電壓(±10V)輸出模式
次要屬性: ±12 V ~ 24 V 電源電壓
已供物品:
AD5750/AD5750-1
Rev. C | Page 31 of 36
APPLICATIONS INFORMATION
TRANSIENT VOLTAGE PROTECTION
The AD5750/AD5750-1 contain ESD protection diodes that
prevent damage from normal handling. The industrial control
environment can, however, subject I/O circuits to much higher
transients. To protect the AD5750/AD5750-1 from excessively
high voltage transients, external power diodes and a surge
current limiting resistor may be required, as shown in Figure 56.
The constraint on the resistor value is that during normal opera-
tion the output level at IOUT must remain within its voltage
compliance limit of AVDD 2.75 V and the two protection
diodes and resistor must have appropriate power ratings.
Further protection can be added with transient voltage
suppressors if needed.
IOUT
AVDD
AVSS
AD5750/AD5750-1
RP
RLOAD
0
72
68
-0
50
Figure 56. Output Transient Voltage Protection
THERMAL CONSIDERATIONS
It is important to understand the effects of power dissipation on
the package and how it affects junction temperature. The internal
junction temperature should not exceed 125°C. The AD5750/
AD5750-1 are packaged in a 32-lead, 5 mm × 5 mm LFCSP
package. The thermal impedance, θJA, is 28°C/W. It is important
that the devices are not operated under conditions that cause
the junction temperature to exceed its junction temperature.
Worst-case conditions occur when the AD5750/AD5750-1 are
operated from the maximum AVDD (26.4 V) and driving the
maximum current (24 mA) directly to ground. The quiescent
current of the AD5750/AD5750-1 should also be taken into
account, nominally ~4 mA.
The following calculations estimate maximum power dissipa-
tion under these worst-case conditions, and determine
maximum ambient temperature based on this:
Power Dissipation = 26.4 V × 28 mA = 0.7392 W
Temp Increase = 28°C × 0.7392 W = 20.7°C
Maximum Ambient Temp = 125°C 20.7°C = 104.3°C
These figures assume proper layout and grounding techniques
are followed to minimize power dissipation, as outlined in the
LAYOUT GUIDELINES
In any circuit where accuracy is important, careful consideration
of the power supply and ground return layout helps to ensure the
rated performance. The PCB on which the AD5750/AD5750-1
are mounted should be designed so that the AD5750/AD5750-1
lie on the analog plane.
The AD5750/AD5750-1 should have ample supply bypassing of
10 μF in parallel with 0.1 μF on each supply located as close to
the package as possible, ideally right up against the device. The
10 μF capacitors are the tantalum bead type. The 0.1 μF capaci-
tor should have low effective series resistance (ESR) and low
effective series inductance (ESI) such as the common ceramic
types, which provide a low impedance path to ground at high
frequencies to handle transient currents due to internal logic
switching.
In systems where there are many devices on one board, it is often
useful to provide some heat sinking capability to allow the power
to dissipate easily.
AD5750/AD5750-1
AVSS
PLANE
BOARD
07
26
8-
05
1
Figure 57. Paddle Connection to Board
The AD5750/AD5750-1 have an exposed paddle beneath the
device. Connect this paddle to the AVSS supply for the part. For
optimum performance, special considerations should be used to
design the motherboard and to mount the package. For enhanced
thermal, electrical, and board level performance, the exposed
paddle on the bottom of the package should be soldered to the
corresponding thermal land paddle on the PCB. Thermal vias
should be designed into the PCB land paddle area to further
improve heat dissipation.
The AVSS plane on the device can be increased (as shown in
Figure 57) to provide a natural heat sinking effect.
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