R-78AA1.5-1.0SMD

  • Efficiency up to 94%, no need for heatsinks
  • High reflow temperature SMD package
  • Adjustable output voltage buck converter
  • Short circuit protection, thermal shutdown
  • Remote on/off control
  • Very low shutdown current

The R-78AAxx-1.0SMD series are adjustable output non-isolated buck converters that meet the requirements for RoHS 10/10 as well as the reflow soldering temperatures associated with vapor phase soldering, making these high efficiency switching regulators ideally suited to modern pick-and-place mass production. The efficiency of up to 97% eans that very little energy is wasted as heat. The additional features of remote on/off control, continuous short circuit protection and adjustable output voltages will find many uses in the battery-powered, industrial, medical and automotive markets.

Attributes R-78AA1.5-1.0SMD
AC/DC or DC/DC DC/DC
Power (W) 1.5
Isolation Non-Isolated
Vin (V) 4.75 - 18.0
Main Vout (V) 1.5
Nr. of Outputs Single
Iout 1 (mA) 1000.0
Mounting Type SMD
Package Style SMD 10 Pin
Length (mm) 15.3
Width (mm) 9.6
Height (mm) 8.8
Certifications EN 55032, EN 60950-1, IEC 60950-1
MIN Operating Temp (°C) -40.0
MAX Operating Temp (°C) 85.0
Current (A) 1.0
Protections SCP
Trim Pin Output Voltage Adjustment FIXED
Control Pin Function Enabled
Directives REACH, RoHS 2+ (10/10)
Packaging Type Tube
Warranty 3 Years
Regulation Regulated

Documents & Media

Title Type Date
recom-certificate-rohs-2.1.pdf PDF
R-78AA-1.0.pdf Datasheet
R-78AA-1.0SMD.step 2D/3D Aug 5, 2019
The controller chip has a multi-stage shutdown:
On : Open or 0V < Vr < 0.6V
minimum quiescent current - all circuits shut down - slowest restart response time
Off (Standby) : 0.6V < Vr < 2.9V
output power stage and PWM oscillator off - medium restart response time
Off (Shutdown) : 2.9V < Vr < 6V
output power stage off, all other circuits active - quickest restart response time
The absolute maximum voltage accepted in that pin is 15V, although its not recommended to go higher than 5V. You cant connect the input directly to the control pin
The enable pin has two functions: Below 2.6V, the converter is OFF (the output power stage is switched off, but the converter oscillator is still running). Below 1.6V, the converter is in ultra-low power mode ( 20µA shutdown mode)
Yes you can. Please refer to the Innoline Application Notes and find our recommended circuits to get a negative output from each series of our switching regulator families.
The datasheets specify the maximum capacitive load. If the combined capacitive load is higher, the converter may go into short circuit protection on power-up.
For switching regulators, but the output capacitor may discharge back into the output of the converter if the input supply is suddenly removed and damage the converter. Fitting protection diodes can avoid this reverse current flow.
No. Switching regulators function differently than linear regulators and this “trick” does not work. They need a very good ground connection to function properly.
All of our DC/DC converters contain a built-in input capacitor filter, so an external capacitor is not required for normal operation, unless specified in the datasheet. An input capacitor may also be required to meet surge requirements or to smooth the DC supply at the point of load. If several DC/DCs are powered from the same rail, then input capacitors placed close to the input pins are recommended.
No external components are needed. An input capacitor is recommended only if the input voltage exceeds 26V. An output capacitor helps reduce output ripple further, but the ripple is relatively low anyway.
The Innoline series all use intelligent controllers that measure the output current on each switching cycle (Current Mode Control). If the output is overloaded, the converter will deliver the over-current until either the converter overheats and shuts itself down (thermal protection) or the load current exceeds the safe limits. If the output is short circuited, the controller shuts down the output drive circuitry. The output condition is continuously monitored and the converter automatically restarts.
Type is not critical. Actually, a lower quality, relatively high ESR capacitor on the input is actually an advantage as its internal resistance helps damp down any switch-on surge oscillations.
A combination of tantalum or electrolytic in parallel with an MLCC on the input or output combines the advantages of both types (high ESR to reduce ringing, low ESR to filter noise).
The R-78 costs more than a linear regulator because it is intelligent. It may look similar to a three-pin linear regulator, but it is far more efficient and inside is a controller chip that protects the converter against overload, over temperature and short circuits. This makes it very robust and hard-to-kill.
Even if the converter itself costs more, the savings that can be made in the primary power supply (because it needs less output current), assembly (because there is no fiddly heatsink, screw, nut and thermal paste to worry about) and inventory (one part rather than 7 parts with the linear regulator + heatsink + mounting + input and output capacitors) mean that the overall power supply cost can be lower with the R-78 than with the ""cheaper"" linear regulator.
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