# Non Isolated POL DC/DC Converter, ITE, Module, 1 Output, 9.9 W, 3.3 V, 3 A

![Product image](https://novapart.co/image/farnell:3977368/)

**URL**: https://novapart.co/products/RPM3.3-3.0-CT/non-isolated-pol-dc-converter-ite-module-1-output
**SKU**: RPM3.3-3.0-CT
**Manufacturer**: RECOM POWER
**Category**: Power & Line Protection || Power Supplies || DC / DC Converters || DC / DC Non Isolated Board Mount Converters - Fixed Output
**Price**: €4.7900
**Stock**: 10+
**Lead Time**: 148 days (indicative)

## Specifications

| Parameter | Value |
|---|---|
| Svhc | No SVHC (25-Jun-2025) |
| Depth | 12.19mm |
| Width | 12.19mm |
| Height | 3.75mm |
| Product Range | RPM-3.0 Series |
| No. Of Outputs | 1 Output |
| Output Power Max | 9.9W |
| Output Current Max | 3A |
| Output Voltage Nom | 3.3V |
| Input Voltage Dc Max | 17V |
| Input Voltage Dc Min | 3V |
| Dc / Dc Converter Type | Module |
| Power Supply Applications | ITE |
| Dc / Dc Converter Mounting | Surface Mount Device |
| Dc / Dc Converter Output Type | Fixed, Adjustable |

## Datasheet

📄 [Download PDF](https://novapart.co/datasheet/farnell:3977368/)

- High power density (L*W*H = 12.19*12.19*3.75) 

- Features • Wide operating temperature -40°C to +105°C at full load • Efficiency up to 97%, no need for heatsinks 

- Power • 6-sided shielding • Thermally and EMI enhanced 25 pad LGA package 

- Module • Compact DOSA-compatible footprint • Low profile 

- ee Description 

The RPM-3.0 series is a 3A non-isolated switching regulator power module with a full set of features including adjustable output, sequencing, soft-start control, on/off control, and power good signals. The ultra-compact module has a profile of only 3.75mm, but with an efficiency of up to 97%, the device can operate at full load in ambient temperatures as high as +105°C without forced air cooling. The package is complete with 6-sided shielding for optimal EMC performance and excellent heat management. 

## **DC/DC Converter** 

## **RPM-3.0** 

## **3 Amp Single Output** 

|Selection Guide<br>Part<br>Input Voltage<br>Output<br>Vout<br>Output<br>Efficiency<br>Max. Capacitive<br>~~Cee~~|Selection Guide<br>Part<br>Input Voltage<br>Output<br>Vout<br>Output<br>Efficiency<br>Max. Capacitive<br>~~Cee~~|Selection Guide<br>Part<br>Input Voltage<br>Output<br>Vout<br>Output<br>Efficiency<br>Max. Capacitive<br>~~Cee~~|Selection Guide<br>Part<br>Input Voltage<br>Output<br>Vout<br>Output<br>Efficiency<br>Max. Capacitive<br>~~Cee~~|Selection Guide<br>Part<br>Input Voltage<br>Output<br>Vout<br>Output<br>Efficiency<br>Max. Capacitive<br>~~Cee~~|Selection Guide<br>Part<br>Input Voltage<br>Output<br>Vout<br>Output<br>Efficiency<br>Max. Capacitive<br>~~Cee~~|Selection Guide<br>Part<br>Input Voltage<br>Output<br>Vout<br>Output<br>Efficiency<br>Max. Capacitive<br>~~Cee~~|
|---|---|---|---|---|---|---|
|Number|Range|Voltage|Adjust Range|Current max.|typ.|Load(1)|
||[VDC]|[VDC]|[VDC]|[A]|[%]|[µF]|
|RPM3.3-3.0|3 - 17|3.3|0.9 - 6.0|3.0|87 - 97|800|
|RPM5.0-3.0|3 - 17|5|0.9 - 6.0|3.0|90 - 97|800|



Notes: ~~OO~~ Note1: Max. Cap Load is tested at nominal input and full resistive load 

## Model Numbering 

EN55032 compliant 

## - RPM__-3.0 __ 

Output Voltage Packaging[ (2)] 

max. Output Current 

Notes: 

Note2: add suffix “-CT” for tube packaging for more details refer to “PACKAGING INFORMATION“ without suffix, standard tape and reel packaging 

Specifications (measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated) 

## BASIC CHARACTERISTICS 

|BASIC CHARACTERISTICS|BASIC CHARACTERISTICS|BASIC CHARACTERISTICS|BASIC CHARACTERISTICS|BASIC CHARACTERISTICS|BASIC CHARACTERISTICS|BASIC CHARACTERISTICS|
|---|---|---|---|---|---|---|
|Parameter||Condition||Min.|Typ.|Max.|
|Internal Input Filter||||capacitor|||
|Input Voltage<br>Range|Buck mode||3.3Vout<br>5Vout|3.45VDC<br>5.15VDC|12VDC|17VDC|
||100% duty cycle mode(3)|Vout= Vin - Vdrop|3.3Vout<br>5Vout|3VDC||3.45VDC<br>5.15VDC|
|Absolute Maximum Input Voltage||||||20VDC|
|Undervoltage Lockout (UVLO)||DC-DC ON<br>DC-DC OFF||2.6VDC<br>2.8VDC|2.7VDC<br>2.9VDC|2.8VDC<br>3.0VDC|
|Input Current<br>~~DR~~||nom. Vin= 12VDC|3.3Vout<br>5Vout||1.0A<br>1.4A||
|Quiescent Current<br>~~DR~~|||||30µA||
|Internal Power Dissipation<br>~~DR~~|||3.3Vout<br>5Vout|||1.4W<br>1.6W|
|continued on nextpage|||||||



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REV.:  3/2019 

RPM-1 

**www.recom-power.com** 

**DC/DC Converter** 

**Series** 

## **RPM-3.0** 

~~LT~~ Specifications (measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated) ~~a~~ Parameter Condition Min. Typ. Max. ~~eS~~ Output Voltage Trimming[(4)] ~~a a~~ 0.9VDC 6VDC ~~eS~~ Minimum Dropout Voltage (Vdrop)[(5)] Vin min. = Vdrop + Vout 50mV/A Minimum Load 0% without using soft start function/ power up 1.6ms Start-up Time ~~a~~ using CTRL function 1.5ms Rise-time 1.4ms ~~eS~~ ON/OFF CTRL DC-DC ON ~~a~~ Open or 0.9V<VCTRL<Vin ~~eeeS~~ Input Current of CTRL Pin DC-DC OFFDC-DC OFF ~~ee~~ 1.2µAShort or -0.3V<VCTRL<0.45VDC ~~a~~ Standby Current DC-DC OFF 15µA ~~a~~ Internal Operating Frequency 1.25MHz ~~ee~~ Output Ripple and Noise[(6)] 20MHz BW, 80 ~~a~~ Ω @ 100MHz 60mVp-p Absolute Maximum Capacitive Load below 1 second start up + Css = 3700nF 42000µF below 1 second start up without softstart mode 800µF 

Notes: 

Note3: As input approaches output voltage set point, device enters 100% duty cycle mode. In 100% duty cycle mode, Vout equals Vin minus dropout voltage (see Dropout vs. Load graph) 

Note4: For more detailed information, please refer to trim table or calculation on page RPM-3 

Note5: Required dropout voltage per 1A output current to be within accuracy (see Dropout vs. Load graph) 

Note6:  Measurements are made with a 22µF MLCC across output (low ESR) 

Efficiency vs. Load 

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**----- Start of picture text -----**<br>
RPM3.3-3.0 RPM5.0-3.0<br>100 100<br>90 90<br>80 Poe 80 Pei tt | ft | tT<br>70 HE ft | Et Et 70 REET<br>60 Ht | | | | tT TT 60 Peet tT Et | tTTtTT<br>50 pit | | TE TE 50 pet<br>40 Piet | | te tT 40 PietTT Tt Tt<br>30 Pt 3Vin 30 | tT TT Tt 4Vin<br>20 P| | tt 5Vin 20 pt | | | 5Vin<br>12Vin 12Vin<br>10 P| || tt| tt 17Vin 10 P|ft | ttt| | 17Vin<br>PEE Pere<br>0 0<br>0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100<br>Output Load [%] Output Load [%]<br>Dropout Voltage vs. Load<br>0.14<br>0.12 RRR<br>0.10<br>Pi ET | |ee<br>0.08<br>P|Ee<br>0.06<br>Pt tt<br>0.04 ee<br>P| er<br>0.02 Pei t t}<br>PTET<br>0<br>Ee ty<br>0 10 20 30 40 50 60 70 80 90 100<br>Output Load [%]<br>Efficiency [%] Efficiency [%]<br>Dropout Voltage [VDC]<br>**----- End of picture text -----**<br>


REV.:  3/2019 

RPM-2 

**www.recom-power.com** 

**RPM-3.0 Series** 

## **DC/DC Converter** 

Specifications (measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated) 

## OUTPUT VOLTAGE TRIMMING 

The RPM series offers the feature of trimming the output voltage over a range between 0.9V and 6V by using external trim resistors. The values for trim resistors shown in trim tables below are according to standard E96 values; therefore, the specified voltage may slightly vary. 

Trim up Trim down Trim +Vout Rup Rdown GND b Trim Lt Voutnom = nominal output voltage  [VDC] Voutset = trimmed output voltage  [VDC] Voutnom R1 R2 R3 Vref Vref = reference voltage [VDC] 3.3VDC 376k W 1k W 471k W 0.81VDC Rup = trim up resistor [ W ] ~~=a~~ 5VDC 344k W 431k W Rdown = trim down resistor [ W ] R1, R2, R3 = internal resistors [ W ] Calculation: R1 (Voutset - Vref) x R3 Rup = Vout - V - R2 Rdown = Vout - Vout ~~i~~ set nom ~~——~~ nom set Practical Example RPM3.3-3.0: 376k (1.8 - 0.81) x 471k Rup = 4.3 - 3.3 - 1k = 375k W Rdown = 3.3 - 1.8 = 311k W ~~4 - -4o-~~ Rup according to E96 ≈ 374k W Rdown according to E96 ≈ 309k W RPM3.3-3.0 Trim up Voutset = 3.5 3.7 3.9 4.1 4.3 4.5 4.7 5.0 5.5 6.0 [VDC] Rup (E96) ≈ 1M87 931k 619k 464k 374k 309k 267k 221k 169k 137k [ W ] ~~Ce~~ Trim down Voutset = 3.0 2.7 2.5 2.2 2.0 1.8 1.5 1.2 1.0 0.9 [VDC] ~~a~~ Rdown (E96) ≈ 3M40 1M47 1M 590k 432k 309k 182k 86k6 39k2 17k4 [ W ] RPM5.0-3.0 Trim up Voutset = 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 6.0 [VDC] Rup (E96) ≈ 2M21 1M33 976k 750k 619k 523k 453k 402k 357k 324k [ W ] ~~So~~ Trim down Voutset = 4.5 4.0 3.5 3.3 2.5 1.8 1.5 1.2 1.0 0.9 [VDC] Rdown (E96) ≈ 3M16 1M37 768k 634k 294k 133k 84k5 44k2 20k5 9k53 [ W ] ~~CS~~ 

REV.:  3/2019 

RPM-3 

**www.recom-power.com** 

**DC/DC Converter** 

## **RPM-3.0** 

## **Series** 

Specifications (measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated) 

## REMOTE SENSE 

The output voltage can be adjusted via the  trim and sense functions. 

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+Vin +Vin +Vout RW1 +Vout sense functions.<br>+Sense<br>Rdown<br>Trim<br>R RW   ... wire losses +<br>up 1<br>GND GND GND GND Rup    ... trim up resistor<br>R  ... trim down resistor<br>down<br>**----- End of picture text -----**<br>


The maximum output voltage from Trim and Sense function combined is 5.5VDC. Derating may be required when using Trim and/or sense functions. 

REGULATIONS Parameter Condition Value Output Accuracy ±3.0% max. Line Regulation low line to high line, full load 0.25% typ. / ±3.0% max. Load Regulation 0% to 100% load 0.5% typ. / 3.0% max. Soft-Start Time refer to soft-start capacitor calculation 100% - 10% load step 200mV max. recovery time 6ms typ. Transient Response 25% load step change 150mV max. ~~————~~ recovery time 500µs typ. Sequencing Multiple Modules The SEQ pin can be used to program the rising edge of the output voltage. An internal current source charges a soft-start capacitor which is connected from the sequencing pin to GND. The following equation is used to calculate the soft-start capacitor: CItssssss   = required soft-start time   = soft-start capacitor = sum of all soft-start currents of all sequenced modules Css = t1.25V ss x Iss - n x 3.3nF n = number of RPMs Note: there is a 3.3nF internal soft-start capacitor, and there are different constant Iss [µA] Preset soft-start time [µs] Min. Typ. Max. Min. Typ. Max. current sources in the modules which leads to different preset soft-start times. 4.5 5.0 5.5 750 825 920 ~~=~~ continued on next page **www.recom-power.com** REV.:  3/2019 RPM-4 

**RPM-3.0 Series** 

**DC/DC Converter** 

~~Lo~~ Specifications (measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated) 

To sequence multiple power module start-up times the power good (PGood) pin and the CTRL pin may be used. In below schematic, the RPM(n) starts after RPM(1) reaches its set output voltage and the power good signal is set to high which then enables RPM(n). After RPM(n) reaches its set output voltage, it enables RPM(n+1). 

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FB1 RPM(1) FB2<br>Vin C1 C2 Vin Vout Vout(1)<br>| —, Sense C3 |<br>CTRL PGood<br>CTRL SEQ Trim ]<br>GND1 GND2<br>GND3 NC<br>FB3 RPM(n) FB4<br>Vin C4 C5 Vin Vout Vout(n)<br>Sense C6<br>CTRL PGood<br>SEQ Trim<br>GND1 GND2<br>GND3 NC<br>RPM(n+1)<br>FB5 FB6<br>Vin C7 C8 Vin Vout Vout(n+1)<br>Sense C9<br>CTRL PGood<br>SEQ Trim<br>GND1 GND2<br>GND3 NC<br>**----- End of picture text -----**<br>


To sequence multiple converters to start at the same time (set output voltage is reached at the same time), the following schematic may be used: 

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FB1 RPM(1) FB2<br>Vin Vin Vout Vout(1)<br>| C1 C2 —— Sense C3 |<br>CTRL PGood<br>I SEQ Trim i<br>GND1 GND2<br>GND3 NC<br>CSS<br>CTRL ,t<br>FB3 RPM(n) FB4<br>Vin Vin Vout Vout(n)<br>C4 C5 Sense C6<br>CTRL PGood<br>SEQ Trim<br>GND1 GND2<br>GND3 NC<br>FB5 RPM(n+1) FB6<br>Vin | Vin Vout Vout(n+1)<br>C7 C8 _—_ Sense C9 |<br>CTRL PGood<br>SEQ Trim<br>GND1 GND2<br>I = GND3 NC i<br>**----- End of picture text -----**<br>


REV.:  3/2019 

RPM-5 

**www.recom-power.com** 

**RPM-3.0 Series** 

**DC/DC Converter** 

|PROTECTIONS|PROTECTIONS|PROTECTIONS|PROTECTIONS|
|---|---|---|---|
|Parameter|Condition||Value|
|Short Circuit Protection(SCP)|50mW||constant current mode|
|Short Circuit Input Current|without soft-start mode||75mA typ.|
|Over Current Protection(OCP)|with soft-start mode||120%,pulse by pulse current limitation|
|Over Temperature Protection (OTP)|case temperature<br>(measured on tcpoint)|DC-DC OFF<br>DC-DC ON|110°C, auto restart after cool down<br>100°C typ.|



ENVIRONMENTAL ~~a~~ Parameter Condition Value ~~a a~~ Operating Temperature Range[(7)] ~~Ga~~ @ natural convection 0.1m/s (refer to derating graph) -40°C to +100°C ~~a~~ Maximum Case Temperature measured on tc point (see dimension drawing) +110°C ~~a~~ Temperature Coefficient @ +65°C Tamb 0.02%/K ~~a~~ Thermal Impedance[(7)] ~~Ga~~ 0.1m/s, horizontal (Tcase to Tamb) 8K/W ~~a~~ Operating Altitude with derating @ natural convection 0.1m/s (refer to altitude vs. load graph) 5000m ~~a~~ Operating Humidity non-condensing 5% - 95% RH max. 40g, 11ms, saw-tooth, 3 shocks ± per axis MIL-STD-810G, Method 516.6, Procedure I ~~ee~~ 3 axis;  unit is operating Shock drop on 50mm plywood on concrete MIL-STD-810G, Method 516.6, Procedure IV 26 times from 1 meter ~~ee~~ Temperature Cycling MIL-STD-883F, Method 1010, Condition A powered -50°C to +85°C, 300 cycles Category 24 - Figure 514.6E-1 - power spectral density = 0.04g[2] /Hz at 20Hz –1000Hz; Random Vibration MIL-STD-810G, Method 514.6, Procedure I, Category 24 -6dB/octave at 1000Hz – 2000Hz; ~~ee ee~~ 60 minutes x 3 axis; unit is operating during tests +25°C 2400 x 10[3] hours MTBF according to MIL-HDBK-217F, G.B. @ full load ~~a~~ +85°C 660 x 10[3] hours Notes: Note7: tested with a eurocard 160x100mm 70µm copper, 4 layer 

## Derating Graph[(7)] 

(@ chamber and natural convection 0.1m/s) 

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100<br>90<br>PTT TET TT TT |<br>80<br>PTTL TTT TT TTY<br>70<br>PT tT ET TT TT Tt TB<br>60<br>PTL TTT ET TT Tt<br>50 SERRE<br>40 15Vin SERRREEes<br>|<br>12Vin<br>30 SRRERSReE<br>9Vin |<br>20 5Vin Pit<br>4Vin<br>10<br>0 PET TT ET SRRERSe| EEE Ty | YT<br>-40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110<br>Ambient Temperature [°C]<br>Output Load [%]<br>**----- End of picture text -----**<br>


REV.:  3/2019 

RPM-6 

**www.recom-power.com** 

## **RPM-3.0** 

## **DC/DC Converter** 

## **Series** 

Specifications (measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated) 

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SAFETY AND CERTIFICATIONS<br>Certificate Type (Safety) Report / File Number Standard<br>Audio/video, information and communication technology equipment. Safety requirements designed to meet EN62368-1<br>RoHS 2 RoHS 2011/65/EU<br>EMC Compliance Condition Standard / Criterion<br>with external components<br>Electromagnetic compatibility of multimedia equipment - emission requirements EN55032, Class A and B<br>(see filter suggestions below)<br>EMC filtering suggestion according to EN55032<br>Vin FB1 Vout<br>Vin Vout<br>C1 C2 Sense<br>CTRL PG<br>t L SEQ Trim<br>GND1 GND2<br>GND3 NC<br>Component List Class A<br>C1 C2  [(8)] FB1<br>WE ref:<br>10µF 25V X7R 10µF 25V X7R<br>742792510<br>Ct<br>**----- End of picture text -----**<br>


EMC filtering suggestion according to EN55032 

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Vin  FB1 FB2 Vout<br>Vin Vout<br>C1 C2 Sense C3<br>CTRL PG<br>SEQ Trim<br>GND1 GND2<br>GND3 NC<br>Component List Class B<br>C1 C2  [(8)] FB1 FB2 C3<br>Notes:<br>WE ref: WE ref:<br>10µF 25V X7R 10µF 25V X7R 742792510 7427932 22µF 10V 7XR Note8: C2 is only required below 10V input voltage<br>|}<br>**----- End of picture text -----**<br>


|DIMENSION AND PHYSICAL CHARACTERISTICS|DIMENSION AND PHYSICAL CHARACTERISTICS|DIMENSION AND PHYSICAL CHARACTERISTICS|
|---|---|---|
|Parameter|Type|Value|
|Material|case<br>PCB<br>solderpads|metal<br>FR4, (UL94 V-0)<br>copper with electrolytic nickel-gold|
|Dimension(LxWxH)||12.19 x 12.19 x 3.75mm|
|Weight||1.1gtyp.|
|continued on nextpage|||



continued on next page 

REV.:  3/2019 

RPM-7 

**www.recom-power.com** 

**RPM-3.0 Series** 

**DC/DC Converter** 

~~Lo~~ Specifications (measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated) 

Dimension Drawing (mm) 

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Pinning information<br>Pad # Function Description<br>tc A1, A2 Vin Positive input voltage with respect to GND. Connect to a<br>Vin plane for enhanced thermal performance<br>C1 CTRL Active High: pull to GND to disable the device.<br>Pull high or leave open to enable the device<br>—<br>12.19  [±0.5] A5, B5 Vout Positive output voltage. Connect to a Vout plane for<br>enhanced thermal performance<br>L Y BS<br>11.70 11.70 C5 Sense Connect this pad to the load or directly to Vout.<br>This pad must not be left floating<br>E5 Trim Used to set the output voltage between 0.9V and 6V<br>ES e j ——<br>E2 NC Not connected<br>Recommended Footprint Details E1 SEQ Used to sequence multiple converters or to set the<br>Bottom View Top View startup time. Float if not used<br>1.52 25 x  1.0 1.06 Output power good. High = Vout at set level, low = Vout<br>D1 PGood below nominal regulation. Maximum sink current is<br>2mA. It has a high impedance output<br>E A (100k Ω  connected to Vout). Float if not used<br>D B A3, A4, B1, B2,<br>C C B3, B4, C2, C3,  GND Negative input voltage. Connect to GND plane(s) for<br>B D C4, D2, D3,  enhanced thermal performance<br>A E D4, D5, E3, E4<br>e:S aoch ooo oo<br>1 2 3 4 5 1 2 3 4 5 tc = case temperature measuring point<br>Pad tolerance= ±0.05mm<br>Case tolerance= ±0.25mm<br>R0.3<br>±0.2<br>12.19<br>3.75<br>1.06<br>2.29<br>.52<br>1<br>**----- End of picture text -----**<br>


## BLOCKDIAGRAM ~~Ce~~ 

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**----- Start of picture text -----**<br>
Vin<br>| ;<br>C2<br>SD CS<br>R1 Q1 L1 Vout<br>Gate<br>Driver C4 ... C9<br>UVLO Q2 Sense<br>CTRL<br>PWM<br>iaN emr e e<br>OTP VS R3<br>SD Logic Vref R4<br>pH FB a<br>SEQ cI SST C3 <H R5 L Trim<br>HT C1 R2 n e<br><q Vref<br>GND PG<br>—<br>Component List<br>C1 C2 L1 C4 - C9 R3 R4 R5<br>3.3Vout 10µF 470k Ω 150k Ω<br>3.3nF 4.7µF 2.2µH 1k Ω<br>5Vout 6pcs. in parallel 430k Ω 82k Ω<br>**----- End of picture text -----**<br>


REV.:  3/2019 

RPM-8 

**www.recom-power.com** 

**RPM-3.0 Series** 

**DC/DC Converter** 

|PACKAGING INFORMATION|PACKAGING INFORMATION|PACKAGING INFORMATION|
|---|---|---|
|Parameter|Type|Value|
|Packaging Dimension (LxWxH)|tape and reel<br>tape and reel(carton)|330.2 x 330.2 x 30.4mm<br>355.0 x 350.0 x 50.0mm|
||tube(“-CT”)|530.0 x 30.3 x 19.2mm|
|Packaging Quantity|tape and reel|500pcs|
||tube(“-CT”)|30pcs|
|Tape Width||24mm|
|Storage Temperature Range||-55°C to +125°C|
|Storage Humidity|non-condensing|95% RH max.|



The product information and specifications may be subject to changes even without prior written notice.The product has been designed for various applications; its suitability lies in the responsibility of each customer. The products are not authorized for use in safety-critical applications without RECOM’s explicit written consent. A safety-critical application is an application where a failure may reasonably be expected to endanger or cause loss of life, inflict bodily harm or damage property. The applicant shall indemnify and hold harmless RECOM, its affiliated companies and its representatives against any damage claims in connection with the unauthorized use of RECOM products in such safety-critical applications. 

REV.:  3/2019 

RPM-9 

**www.recom-power.com** 



## Links

- [View this product on Novapart](https://novapart.co/products/RPM3.3-3.0-CT/non-isolated-pol-dc-converter-ite-module-1-output)
- [Request a quote for this part](https://novapart.co/quote/)
- [Supplier page](https://es.farnell.com/recom-power/rpm3-3-3-0-ct/dc-dc-converter-3-3v-3a/dp/3977368)
---

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