Specifications
| Type | Description |
|---|---|
| Part Number | XLR1213 |
| Manufacturer | XINGLIGHT |
| Product Type | LDO Regulator |
| Category | Power Management |
| Component Type | Power_IC |
| Package Case | DIP7; optional DIP7-M (XLR1213M) and SMD7 (XLR1213S); package dimensions not readable in provided text |
| Peak Breakdown Voltage | 600 V; feature specification |
| Peak Current Load | 0.6 A; XLR1213 variant |
| Isolation Voltage | 5000 Vrms; between input and output |
| Operating Temperature | -55 to +100 °C; feature specification |
| Package Options | DIP7, DIP7-M, SMD7; mechanical data / ordering information |
| Molding Compound Flammability Rating | UL 94V-0; mechanical data |
| Terminal Finish | Matte tin-plated leads; solderability per MIL-STD-202, Method 208 |
| Base Part Number | XLR1213; ordering information; X digit = 1 |
| DIP7 Shipping Quantity | 65 pcs/tube; XLR1213 DIP7 package |
| DIP7-M Shipping Quantity | 65 pcs/tube; XLR1213M DIP7-M package |
| SMD7 Shipping Quantity | 1000 pcs/tape & reel; XLR1213S SMD7 package |
| Forward Current | 50 mA; maximum rating, TA=25°C unless otherwise specified |
| Input Reverse Voltage | 5 V; maximum rating, TA=25°C unless otherwise specified |
| Input Power Dissipation | 75 mW; maximum rating, TA=25°C unless otherwise specified |
| Output Power Dissipation | 300 mW; maximum rating, TA=25°C unless otherwise specified |
| Off-State Output Terminal Voltage | 600 V; VDRM maximum rating, TA=25°C unless otherwise specified |
| Peak Repetitive Surge Current | 6 A; ITSM, XLR1213, TA=25°C unless otherwise specified |
| Turn-On Current RMS | 0.6 A; IT(RMS), XLR1213, TA=25°C unless otherwise specified |
| Total Power Dissipation | 375 mW; PTOT thermal characteristic |
| Isolation Voltage | 5000 Vrms; VISO, 40-60% RH, AC for 1 minute; pins 1,2,3 shorted and pins 4,5,6 shorted together |
| Operating Temperature | -40 to +85 °C; TOPR thermal characteristic |
| Storage Temperature Range | -40 to +125 °C; TSTG thermal characteristic |
| Soldering Temperature | 260 °C; TSOL for 10 seconds |
| Forward Voltage | Max 1.4 V; VF, IF=10 mA, TA=25°C unless otherwise specified |
| Input Reverse Leakage Current | Max 10 uA; IR, VR=5 V |
| Input Capacitance | Typ 45 pF; CIN, f=1 kHz |
| Peak Blocking Current | Max 100 uA; IDRM, VDRM=600 V, IF=0 mA |
| Peak On-State Voltage | Max 2.5 V; VTM, ITM=100 mA peak, IF=rated IFT |
| Critical Rate of Rise of Off-State Voltage | Min 200 V/us; dv/dt, VPEAK=rated VDRM |
| LED Trigger Current | Max 10 mA; IFT, main terminal voltage=3 V |
| Holding Current | Max 25 mA; IH, terminal voltage from ON to OFF state, IF=0 mA |
| Turn-On Time | Typ 10 us, Max 100 us; Ton, IF=20 mA, VD=6 V, RL=100 ohm |
| Isolation Resistance | Min 1e11 ohm; RIO, VIO=500 VDC |
| Isolation Capacitance | Typ 0.25 pF; CIO, f=1 MHz |
| Reflow Preheat Temperature | 150 to 200 °C; Ts reflow soldering profile |
| Reflow Preheat Time | 60 to 120 s; ts reflow soldering profile |
| Reflow Ramp-Up Rate | Max 3 °C/s; TL to TP |
| Reflow Liquidus Temperature | 217 °C; TL reflow soldering profile |
| Reflow Time Above Liquidus | 60 to 150 s; tL, above TL |
| Reflow Peak Temperature | 260 °C; Tp reflow soldering profile |
| Reflow Peak Time | Max 30 s; tp, time during which Tc is between TP-5 and TP |
| Reflow Ramp-Down Rate | Max 6 °C/s; TP to TL |
| Maximum Reflow Cycles | No more than 3 times; recommended reflow soldering profile |
| Wave Soldering Average Ramp-Up Rate | Approximately 200 °C/s; wave soldering profile feature |
| Wave Soldering Heating Rate During Preheat | Typical 1 to 2 °C/s, maximum 4 °C/s; wave soldering profile feature |
| Wave Soldering Final Preheat Temperature | Approximately 130 °C; Ts wave soldering profile |
| Wave Soldering Preheat Time | >60 s; 25 °C to Ts |
| Wave Soldering Peak Temperature | 260 °C; Tp wave soldering profile |
| Wave Soldering Peak Time | 10 s; tp within peak temperature |
| Wave Soldering Ramp-Down Rate | Max 5 °C/s; wave soldering profile feature |
| Hand Soldering Iron Temperature | 360 °C +5 °C within 3 s; used only for product rework or sample testing |
| DIP7 Tube Quantity | 65 pcs/tube; tube length 500 mm |
| DIP7 Box Quantity | 3250 pcs/box; 50 tubes/box |
| DIP7 Carton Quantity | 32500 pcs/carton; 10 boxes/carton |
| DIP7-M Tube Quantity | 65 pcs/tube; tube length 500 mm |
| DIP7-M Box Quantity | 3250 pcs/box; 50 tubes/box |
| DIP7-M Carton Quantity | 32500 pcs/carton; 10 boxes/carton |
| SMD7 Reel Quantity | 1000 pcs/reel; reel diameter 330 mm |
| SMD7 Box Quantity | 2000 pcs/box; 2 reels/box |
| SMD7 Carton Quantity | 20000 pcs/carton; 5 boxes/carton |
| Datasheet Status | request_only |
Product Overview
XLR1213 is documented by XINGLIGHT as a zero cross triac driver in the Power_Management category. The base package is DIP7, with ordering and mechanical information also listing DIP7-M for XLR1213M and SMD7 for XLR1213S. Package dimensions were not readable in the provided text, but the datasheet facts specify UL 94V-0 molding compound and matte tin-plated leads with solderability per MIL-STD-202, Method 208.
Core device ratings include 600 V peak breakdown voltage, 600 V off-state output terminal voltage, 0.6 A RMS turn-on current for XLR1213, 6 A peak repetitive surge current, 375 mW total power dissipation, and 5000 Vrms isolation between input and output. Input-side limits include 50 mA forward current, 5 V reverse voltage, and 75 mW input power dissipation.
Assembly data covers 260 °C soldering for 10 seconds, reflow with 150 to 200 °C preheat and 260 °C peak temperature, wave soldering with approximately 130 °C final preheat and 260 °C peak, plus hand soldering at 360 °C +5 °C within 3 seconds for rework or sample testing.
Key Features
- Zero cross triac driver product type
- 600 V peak breakdown voltage rating
- 0.6 A peak current load for XLR1213
- 5000 Vrms input-to-output isolation voltage
- DIP7, DIP7-M, and SMD7 package options
- UL 94V-0 molding compound flammability rating
- Matte tin-plated leads per solderability data
- 10 mA maximum LED trigger current
- 200 V/us minimum off-state dv/dt
- 260 °C soldering temperature for 10 seconds
Typical Applications
- AC load switching interfaces
- Triac gate drive circuits
- Isolated mains control stages
- Zero-cross switching control
- Power management control boards
- DIP7 through-hole assemblies
- SMD7 tape-and-reel assemblies
Procurement Notes
When requesting a quote for XLR1213, buyers should confirm the manufacturer, package or case, required quantity, target date code, compliance documents, packing method, destination country and expected delivery schedule.
If alternatives are acceptable, buyers should share the approved vendor list, required electrical or optical limits, package constraints and qualification requirements. Any alternative part should be reviewed by the buyer's engineering team before production use.
For power IC and power device sourcing, voltage rating, current rating, power dissipation, package thermal performance, protection features, qualification grade and application conditions should be reviewed before approval.
FAQ
What product type is the XLR1213?
The XLR1213 is identified in the extracted manufacturer datasheet facts as a zero cross triac driver in the Power_Management category, with Power_IC listed as the inferred component type.
What package options are listed for XLR1213?
The extracted facts list DIP7 for XLR1213, with optional DIP7-M for XLR1213M and SMD7 for XLR1213S. Package dimensions were not readable in the provided text.
What isolation rating is specified for this part?
The datasheet facts specify 5000 Vrms isolation voltage between input and output. A detailed rating also states VISO at 40-60% RH, AC for 1 minute, with grouped input and output pins shorted.
What are the main output current ratings?
For the XLR1213 variant, the facts list 0.6 A peak current load and 0.6 A RMS turn-on current. The peak repetitive surge current is specified as 6 A.
Technical Review & Sourcing Note
Prepared by LDeepAI Component Sourcing Team. Reviewed for RFQ, documentation and alternative sourcing use. Last updated: July 4, 2026.
This page is based on manufacturer datasheet information and LDeepAI sourcing review. Specifications should be verified against the official manufacturer datasheet before final procurement or design approval. Final electrical, optical and reliability approval should be confirmed by the buyer's engineering team.