Hello! now
HK In FortuneFree Shipping Over$200
Follow Us:

GRM31CR60J107ME39L Murata MLCC: Applications, Selection and Buying Notes

GRM31CR60J107ME39L Murata MLCC: Applications, Selection and Buying Notes
Part No.:
GRM31CR60J107ME39L
Manufacturer:
Murata Electronics
Package:
Description:
CAP CER 100UF 6.3V X5R 1206
Payment:
Payment
Shipping:
Shipping

Inventory:0

Send us your inquiry,we will respond immediately.

Part No.
Quantity
Price
Contact Name
Company Name
E-mail
Comments

Article Details

GRM31CR60J107ME39L Murata MLCC: Applications, Selection and Buying Notes

GRM31CR60J107ME39L Murata MLCC is a GRM-series surface-mount multilayer ceramic capacitor specified as 100 uF, 6.3V, X5R, 1206 (3216 metric), with +/-20% tolerance. It is used for local decoupling, bulk bypassing and rail stabilization where the board can accept the listed package and voltage rating. View the GRM31CR60J107ME39L product detail page or contact In-Fortune for sourcing support.

GRM31CR60J107ME39L Murata ceramic capacitor package image

What is GRM31CR60J107ME39L?

GRM31CR60J107ME39L is a Murata Electronics GRM-family ceramic capacitor. In circuit terms, it is a two-terminal, non-polarized MLCC that stores and releases small amounts of charge near an IC, regulator, connector or load step. It is not an active component and it does not have a signal pinout like an IC. The practical pinout check is the land pattern, package orientation, solder fillet and board-level mechanical clearance.

The checked In-Fortune product page describes the part as CAP CER 100UF 6.3V X5R 1206. Murata product information should be used as the primary engineering source for final approval, especially for DC-bias characteristics, impedance curves, soldering profile, application category and packaging code. The full purchasing model should remain GRM31CR60J107ME39L, because the ending letter can identify packaging and procurement handling.

How GRM31CR60J107ME39L is used

Typical circuit role

Most designs use GRM31CR60J107ME39L as a local energy reservoir on a power rail. A common placement is between the rail and ground near the IC power pin, regulator output, load switch output or module supply input. The capacitor supplies short transient current while the upstream regulator and copper plane respond. In a switching regulator design, it may be part of the output capacitor bank, but the control-loop stability, ripple-current assumptions and effective capacitance under DC bias must be checked against the regulator datasheet.

For decoupling, this part is usually combined with smaller capacitors such as 0.1 uF or 1 uF values placed close to high-speed pins. The larger value handles lower-frequency load movement, while the smaller capacitors help at higher frequency. Layout still matters: short current loops, direct ground return, suitable via count and avoidance of long narrow traces can matter more than simply increasing nominal capacitance.

DC bias, derating and mechanical checks

X5R is suitable for many compact bypass networks, but its capacitance changes with temperature, applied voltage and aging. A 100 uF MLCC will not always deliver its nominal capacitance once a DC voltage is applied. The effective capacitance can drop significantly depending on voltage, package, dielectric and internal design. Engineers should review Murata DC-bias data or measure the rail in the final layout when the capacitor is part of a timing node, regulator compensation plan, hold-up budget or noise target.

The rated voltage must also be compared with the maximum rail, tolerance, overshoot, hot-plug behavior and test conditions. A rail that is nominally below 6.3V can still exceed the rating during startup or fault events. The board should also be reviewed for flex cracking risk. Larger MLCCs and capacitors near board edges, connectors, screws or depanelization points may need layout relief, soft-termination alternatives or placement changes.

Assembly and pinout notes

For the 1206 (3216 metric) package, the land pattern, solder volume and reflow process should follow the approved footprint. There is no polarity mark to align, but the component still needs correct orientation relative to the pads and pick-and-place file. If an alternative changes package size, terminal material, thickness or reel packaging, the purchasing change can become a PCB and assembly change.

Key specifications for GRM31CR60J107ME39L

ParameterGRM31CR60J107ME39L value or review note
ManufacturerMurata Electronics
CategoryMultilayer ceramic capacitor, SMD MLCC
SeriesGRM
Capacitance100 uF
Rated voltage6.3V
Tolerance+/-20%
Dielectric / temperature coefficientX5R
Operating temperature-55 to +85 degC
Package / case1206 (3216 metric)
Size / dimension0.126" L x 0.063" W (3.20 mm x 1.60 mm)
Thickness max0.071" max (1.80 mm)
Mounting styleSurface mount, MLCC
Part statusActive on the checked In-Fortune detail page; final lifecycle to be confirmed with supplier
PackagingTape and reel; final reel code and quantity to be confirmed with supplier
Datasheet / sourceMurata product data page and In-Fortune product detail page

GRM31CR60J107ME39L selection guide

Select GRM31CR60J107ME39L when the design needs 100 uF nominal capacitance, a 6.3V rated MLCC, X5R temperature characteristic and 1206 (3216 metric) footprint. It is a practical candidate for local bypassing around processors, memory, interface ICs, power-management ICs, sensor modules, communication modules, industrial controls and compact consumer or embedded hardware where a general-purpose GRM MLCC is accepted.

It is a stronger fit when the rail voltage has enough derating margin, the layout already reserves the listed package size, and the design tolerates capacitance shift across DC bias, temperature and aging. It is not the right default when a precision analog time constant, oscillator load, safety-critical hold-up function or high-temperature environment requires a different dielectric, tolerance, certification class or reliability grade. In those cases, review a C0G/NP0 capacitor, a film capacitor, a larger MLCC bank, an automotive-qualified family or a different Murata series.

For procurement, the selection should not stop at capacitance and voltage. Confirm the complete part number, the package code, the thickness, the terminal finish, the reel quantity, the latest Murata data, and whether GRM31CR60J107ME39L is already listed on the AVL. If the design references related parts such as GRM31CR61A476ME15L, GRM21BR60J476ME15L, GRM31CR61E476ME44L, treat each as a separate engineering decision rather than an automatic replacement.

Alternatives and cross references for GRM31CR60J107ME39L

Alternatives are useful for sourcing continuity, but MLCC replacements can fail quietly if only the headline capacitance and voltage are compared. Before approving a GRM31CR60J107ME39L replacement, compare datasheet, dielectric, voltage rating, tolerance, package, thickness, PCB footprint, land pattern, DC-bias curve, ripple and impedance behavior, temperature range, lifecycle status, qualification level and supplier documentation.

Alternative or related partMain differenceReplacement risk
GRM31CR61A476ME15L47 uF 10V X5R 1206Lower nominal capacitance but higher voltage; output ripple and transient margin must be recalculated.
GRM21BR60J476ME15L47 uF 6.3V X5R 0805Smaller case and lower capacitance can reduce effective bulk energy.
GRM31CR61E476ME44L47 uF 25V X5R 1206Higher voltage but lower capacitance; check regulator stability and bias curves.
C3216X5R0J107M seriesTDK 100 uF 6.3V X5R 1206 classFootprint may match, but supplier approval and electrical curves still need confirmation.

For a regulator output capacitor, also confirm control-loop stability and minimum effective capacitance over voltage and temperature. For a decoupling network, confirm whether the substitute changes impedance peaks with the rest of the capacitor bank. For mechanically stressed boards, compare termination options and placement risk before releasing a purchase change.

Buying notes and sourcing checks

Before issuing an RFQ for GRM31CR60J107ME39L, confirm the full Murata model, manufacturer name, GRM series, capacitance, rated voltage, tolerance, dielectric, package case, thickness, packaging method, date-code expectation, lot consistency, original factory condition, traceability documents, RoHS/REACH needs, lead time, and accepted substitute range. Do not shorten the request to only 100 uF 6.3V; that loses the package, tolerance and dielectric details that control the design risk.

Ask the supplier to confirm whether the offered part matches the requested suffix and whether the reel code is acceptable for the SMT process. For GRM31CR60J107ME39L, the purchasing decision should also include application risk: rail voltage, ambient temperature, board flex, regulator stability and customer approval. View the GRM31CR60J107ME39L product detail page. Request sourcing support for GRM31CR60J107ME39L. Contact In-Fortune to confirm GRM31CR60J107ME39L specifications. Send an RFQ with your required quantity and delivery schedule.

GRM31CR60J107ME39L FAQ

Where can I find the GRM31CR60J107ME39L datasheet?

Start with the Murata product data page and the GRM31CR60J107ME39L page on In-Fortune. The final approval sheet, latest product notice and packaging code should be confirmed with supplier before production use.

What is the GRM31CR60J107ME39L pinout?

GRM31CR60J107ME39L is a two-terminal, non-polarized MLCC. The pinout check is the PCB land pattern, package size, soldering geometry and placement clearance, not a numbered IC pin map.

What applications fit Murata GRM31CR60J107ME39L?

Typical applications include power-rail decoupling, local bypassing, regulator output or input capacitor banks, module supply filtering and noise reduction in general-purpose electronic equipment.

Can GRM31CR60J107ME39L replace another capacitor with the same capacitance?

Only after checking voltage rating, dielectric, tolerance, package, thickness, DC bias, temperature range, footprint, lifecycle and qualification requirements. Same capacitance is not enough for MLCC substitution.

Does GRM31CR60J107ME39L have polarity?

No. It is a ceramic MLCC and is normally non-polarized. Assembly still needs the correct package orientation and land pattern for reliable solder joints.

What should engineers check before using GRM31CR60J107ME39L in a regulator circuit?

Check effective capacitance under DC bias, regulator stability requirements, ESR or impedance assumptions, ripple current, startup behavior, voltage overshoot and the total capacitor bank around the regulator.

What should procurement confirm before buying GRM31CR60J107ME39L?

Confirm the full part number, Murata brand, package case, packaging suffix, reel format, date code, lot requirement, original condition, compliance documents, delivery schedule and accepted alternative list.

Missing or uncertain data

  • Latest Murata approval sheet, product change notice status and customer-specific AVL status: to be confirmed with supplier.
  • DC-bias curve, impedance curve and effective capacitance in the final rail condition: to be confirmed against Murata data or measured in the application.
  • Exact reel code, standard packing quantity, date-code range and lot requirement for the order: to be confirmed with supplier.
  • Any replacement for GRM31CR60J107ME39L must be approved against datasheet, package, land pattern, electrical behavior, lifecycle and certification requirements before use.

GRM31CR60J107ME39L Specifications

Attributes
Property Value
Manufacturer
Murata Electronics
Series:
GRM
Packaging:
Tape & Reel (TR)
Part Status:
Active
Capacitance:
100 µF
Tolerance:
±20%
Temperature Coefficient:
X5R
Operating Temperature:
-55°C ~ 85°C
Features:
-
Lead Style:
-
Ratings:
-
Part Applications:
General Purpose
Voltage - Rated:
6.3V
Failure Rate:
-
Mounting Style:
Surface Mount, MLCC
Lead Spacing:
-
Package / Case:
1206 (3216 Metric)
Thickness (Max):
0.071" (1.80mm)
Size / Dimension:
0.126" L x 0.063" W (3.20mm x 1.60mm)
Height - Seated (Max):
-
Reset All
Search Similar
Result:

The Posts

GRM31CR60J107ME39L Murata MLCC: Applications, Selection and Buying Notes
GRM31CR60J107ME39L Murata MLCC: Applications, Selection and Buying Notes

GRM31CR60J107ME39L Murata MLCC guide for 100uF 6.3V X5R 1206 rails, derating, alternatives and sourcing checks.

GRM033R61A105ME44D Murata MLCC: Applications, Selection and Buying Notes
GRM033R61A105ME44D Murata MLCC: Applications, Selection and Buying Notes

GRM033R61A105ME44D Murata MLCC guide covering applications, selection, alternatives and sourcing checks for 1 uF, 10V, X5R, +/-20%, 0201 MLCC.

GRM033R60J104KE19D Murata MLCC: Applications, Selection and Buying Notes
GRM033R60J104KE19D Murata MLCC: Applications, Selection and Buying Notes

GRM033R60J104KE19D Murata MLCC guide covering applications, selection, alternatives and sourcing checks for 0.1 uF, 6.3V, X5R, +/-10%, 0201 MLCC.

GRM1555C1H750GA01D Murata MLCC: Applications, Selection and Buying Notes
GRM1555C1H750GA01D Murata MLCC: Applications, Selection and Buying Notes

GRM1555C1H750GA01D Murata MLCC guide covering applications, selection, alternatives and sourcing checks for 75 pF, 50V, C0G/NP0, +/-2%, 0402 MLCC.

GRM033R61C105ME15D Murata MLCC: Applications, Selection and Buying Notes
GRM033R61C105ME15D Murata MLCC: Applications, Selection and Buying Notes

GRM033R61C105ME15D Murata MLCC guide covering applications, selection, alternatives and sourcing checks for 1 uF, 16V, X5R, +/-20%, 0201 MLCC.

GRM21BR71A106KA73L Murata MLCC: Applications, Selection and Buying Notes
GRM21BR71A106KA73L Murata MLCC: Applications, Selection and Buying Notes

GRM21BR71A106KA73L Murata MLCC guide for 10uF 10V X7R 0805 use, temperature margin, replacements and supplier checks.

GRM21BR61E106KA73L Murata MLCC: Applications, Selection and Buying Notes
GRM21BR61E106KA73L Murata MLCC: Applications, Selection and Buying Notes

GRM21BR61E106KA73L Murata MLCC guide covering 10uF 25V X5R 0805 use, DC-bias review, alternatives and buying checks.

GRM21BR61A476ME15L Murata MLCC: Applications, Selection and Buying Notes
GRM21BR61A476ME15L Murata MLCC: Applications, Selection and Buying Notes

GRM21BR61A476ME15L Murata MLCC guide for 47uF 10V X5R 0805 decoupling, alternatives, replacement risk and sourcing checks.

HK In Fortune

Search

HK In Fortune

Products

HK In Fortune

Phone

HK In Fortune

User